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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0344903 (2012-01-06) |
등록번호 | US-9023263 (2015-05-05) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 0 인용 특허 : 99 |
Disclosed is a method and apparatus for use in a fusion process for conduit. The method includes: heating and melting at least a portion of the terminal edges of the first conduit portion and the second conduit portion; and butt fusing the melted terminal edge of the first conduit portion with the m
Disclosed is a method and apparatus for use in a fusion process for conduit. The method includes: heating and melting at least a portion of the terminal edges of the first conduit portion and the second conduit portion; and butt fusing the melted terminal edge of the first conduit portion with the melted terminal edge of the second conduit portion, thereby creating a fused joint area. A fusion apparatus for employing this method is also disclosed.
1. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion;aligning the first terminal edge of the first conduit portion with the first te
1. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion;aligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F., wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of the heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 2. The method of claim 1, wherein each of the first conduit portion and the second conduit portion has a pressure rating of about 80 psi to about 370 psi at a water temperature of 73° F. (23° C.). 3. The method of claim 1, wherein each of the first conduit portion and the second conduit portion has a nominal pipe size ranging from about 3 inches to about 36 inches. 4. The method of claim 1, further comprising removing at least a portion of a resultant external bead extending around the butt fused joint area. 5. The method of claim 1, further comprising: heating and melting at least a portion of a second terminal edge of the first conduit portion and at least a portion of a first terminal edge of a subsequent conduit portion; andengaging the second terminal edge of the first conduit portion with the first terminal edge of the subsequent conduit portion, thereby creating a subsequent butt fused joint area. 6. The method of claim 1, wherein the heating comprises simultaneous heating of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 7. The method of claim 1, wherein the heating and melting comprises applying a plurality of heat zones to at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion, the plurality of heat zones configured to provide a heat profile to at least a portion of the at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 8. The method of claim 7, comprising automatically controlling at least one of the plurality of heat zones. 9. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F., wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of the heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; and optionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 10. The method of claim 9, wherein each of the first conduit portion and the second conduit portion has a pressure rating of about 80 psi to about 370 psi at a water temperature of 73° F. (23° C.). 11. The method of claim 9, wherein each of the first conduit portion and the second conduit portion has a nominal pipe size ranging from about 3 inches to about 36 inches. 12. The method of claim 9, wherein prior to the heating and melting, the method further comprises: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion. 13. The method of claim 9, further comprising removing at least a portion of a resultant external bead extending around the butt fused joint area. 14. The method of claim 9, further comprising: heating and melting at least a portion of a second terminal edge of the first conduit portion and at least a portion of a first terminal edge of a subsequent conduit portion; andengaging the second terminal edge of the first conduit portion with the first terminal edge of the subsequent conduit portion, thereby creating a subsequent butt fused joint area. 15. The method of claim 9, wherein the heating comprises simultaneous heating of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 16. The method of claim 9, wherein the heating and melting comprises applying a plurality of heat zones to at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion, the plurality of heat zones configured to provide a heat profile to at least a portion of the at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 17. The method of claim 16, comprising automatically controlling at least one of the plurality of heat zones. 18. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F., wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of the heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion and wherein the butt fused joint area is free of a coupler between the first conduit portion and the second conduit portion; and optionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 19. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F., wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of the heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 20. The method of claim 19, wherein each of the first conduit portion and the second conduit portion has a pressure rating of about 80 psi to about 370 psi at a water temperature of 73° F. (23° C.). 21. The method of claim 19, wherein each of the first conduit portion and the second conduit portion has a nominal pipe size ranging from about 3 inches to about 36 inches. 22. The method of claim 19, wherein prior to the heating and melting, the method further comprises: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion. 23. The method of claim 19, further comprising removing at least a portion of a resultant external bead extending around the butt fused joint area. 24. The method of claim 19, further comprising: heating and melting at least a portion of a second terminal edge of the first conduit portion and at least a portion of a first terminal edge of a subsequent conduit portion; andengaging the second terminal edge of the first conduit portion with the first terminal edge of the subsequent conduit portion, thereby creating a subsequent butt fused joint area. 25. The method of claim 19, wherein the heating comprises simultaneous heating of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 26. The method of claim 19, wherein the heating and melting comprises applying a plurality of heat zones to at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion, the plurality of heat zones configured to provide a heat profile to at least a portion of the at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 27. The method of claim 26, comprising automatically controlling at least one of the plurality of heat zones. 28. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F., wherein a Uniform heating file across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of the heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; and optionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 29. The method of claim 28, wherein each of the first conduit portion and the second conduit portion has a pressure rating of about 80 psi to about 370 psi at a water temperature of 73° F. (23° C.). 30. The method of claim 28, wherein each of the first conduit portion and the second conduit portion has a nominal pipe size ranging from about 3 inches to about 36 inches. 31. The method of claim 28, further comprising removing at least a portion of a resultant external bead extending around the butt fused joint area. 32. The method of claim 28, further comprising: heating and melting at least a portion of a second terminal edge of the first conduit portion and at least a portion of a first terminal edge of a subsequent conduit portion; andengaging the second terminal edge of the first conduit portion with the first terminal edge of the subsequent conduit portion, thereby creating a subsequent butt fused joint area. 33. The method of claim 28, wherein the heating comprises simultaneous heating of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 34. The method of claim 28, wherein the heating and melting comprises applying a plurality of heat zones to at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion, the plurality of heat zones configured to provide a heat profile to at least a portion of the at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 35. The method of claim 34, comprising automatically controlling at least one of the plurality of heat zones. 36. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F., wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of the heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion and wherein the butt fused joint area is free of a coupler between the first conduit portion and the second conduit portion; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 37. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F., wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of the heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 38. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F., wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of the heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 39. The method of claim 38, wherein each of the first conduit portion and the second conduit portion has a pressure rating of about 80 psi to about 370 psi at a water temperature of 73° F. (23° C.). 40. The method of claim 38, wherein each of the first conduit portion and the second conduit portion has a nominal pipe size ranging from about 3 inches to about 36 inches. 41. The method of claim 38, wherein prior to the heating and melting, the method further comprises: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion. 42. The method of claim 38, further comprising removing at least a portion of a resultant external bead extending around the butt fused joint area. 43. The method of claim 38, further comprising: heating and melting at least a portion of a second terminal edge of the first conduit portion and at least a portion of a first terminal edge of a subsequent conduit portion; andengaging the second terminal edge of the first conduit portion with the first terminal edge of the subsequent conduit portion, thereby creating a subsequent butt fused joint area. 44. The method of claim 38, wherein the heating comprises simultaneous heating of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 45. The method of claim 38, wherein the heating and melting comprises applying a plurality of heat zones to at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion, the plurality of heat zones configured to provide a heat profile to at least a portion of the at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 46. The method of claim 45, comprising automatically controlling at least one of the plurality of heat zones. 47. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of a heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; and optionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 48. The method of claim 47, wherein each of the first conduit portion and the second conduit portion has a pressure rating of about 80 psi to about 370 psi at a water temperature of 73° F. (23° C.). 49. The method of claim 47, wherein each of the first conduit portion and the second conduit portion has a nominal pipe size ranging from about 3 inches to about 36 inches. 50. The method of claim 47, further comprising removing at least a portion of a resultant external bead extending around the butt fused joint area. 51. The method of claim 41, further comprising: heating and melting at least a portion of a second terminal edge of the first conduit portion and at least a portion of a first terminal edge of a subsequent conduit portion; andengaging the second terminal edge of the first conduit portion with the first terminal edge of the subsequent conduit portion, thereby creating a subsequent butt fused joint area. 52. The method of claim 47, wherein the heating comprises simultaneous heating of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 53. The method of claim 47, wherein the heating and melting comprises applying a plurality of heat zones to at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion, the plurality of heat zones configured to provide a heat profile to at least a portion of the at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 54. The method of claim 53, comprising automatically controlling at least one of the plurality of heat zones. 55. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein a uniform heating profile across the terminal edges is produced by, providing different temperatures to an upper surface and a lower surface of a heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion and wherein the butt fused joint area is free of a coupler between the first conduit portion and the second conduit portion; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 56. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surface of a heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 57. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein a uniform heating profile across the terminal edges is produced by providing different temperatures to an upper surface and a lower surfaces of a heating plate, in consideration of the natural physics of the heating process;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 58. The method of claim 57, wherein each of the first conduit portion and the second conduit portion has a pressure rating of about 80 psi to about 370 psi at a water temperature of 73° F. (23° C.). 59. The method of claim 57, wherein each of the first conduit portion and the second conduit portion has a nominal pipe size ranging from about 3 inches to about 36 inches. 60. The method of claim 57, wherein prior to the heating and melting, the method further comprises: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion. 61. The method of claim 57, further comprising removing at least a portion of a resultant external bead extending around the butt fused joint area. 62. The method of claim 57, further comprising: heating and melting at least a portion of a second terminal edge of the first conduit portion and at least a portion of a first terminal edge of a subsequent conduit portion; andengaging the second terminal edge of the first conduit portion with the first terminal edge of the subsequent conduit portion, thereby creating a subsequent butt fused joint area. 63. The method of claim 57, wherein the heating comprises simultaneous heating of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 64. The method of claim 57, wherein the heating and melting comprises applying a plurality of heat zones to at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion, the plurality of heat zones configured to provide a heat profile to at least a portion of the at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion. 65. The method of claim 64, comprising automatically controlling at least one of the plurality of heat zones. 66. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion;aligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween,wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; and optionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 67. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 68. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion and wherein the butt fused joint area is free of a coupler between the first conduit portion and the second conduit portion, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; and optionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 69. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 70. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; and optionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 71. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion and wherein the butt fused joint area is free of a coupler between the first conduit portion and the second conduit portion, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 72. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 73. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 74. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion by contacting at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; and optionally removing at least a portion of a resultant external bead extending around the butt fused joint area, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds. 75. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion by contacting at least a portion of at least one of the first terminal edge of the frst conduit portion and the first terminal edge of the second conduit portion with a heating plate, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion and wherein the butt fused joint area is free of a coupler between the first conduit portion and the second conduit portion, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 76. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion by contacting at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 77. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion by contacting at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion, wherein the speed of removal of the heating plate after the heating process, together with the speed of engaging the terminal edges is about 3 seconds to about 4 seconds; andoptionally removing at least a portion of a resultant external bead extending around the butt fused joint area. 78. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion;aligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first termnninal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween; andremoving at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 79. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.; butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; and removing at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 80. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion and wherein the butt fused joint area is free of a coupler between the first conduit portion and the second conduit portion; and removing at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 81. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween; andremoving at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 82. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; and removing at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 83. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion and wherein the butt fused joint area is free of a coupler between the first conduit portion and the second conduit portion; andremoving at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 84. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween; andremoving at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 85. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material, wherein the heating and melting includes contact of at least a portion of at least one of the first terminal edge of the first conduit portion and the first terminal edge of the second conduit portion with a heating plate at a temperature of about 415° F.;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; andremoving at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 86. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; and removing at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 87. A method of fusing a first conduit portion to a second conduit portion, comprising: facing at least one of the first terminal edge of the first conduit and the first terminal edge of the second conduit; andaligning the first terminal edge of the first conduit portion with the first terminal edge of the second conduit portion;heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion and wherein the butt fused joint area is free of a coupler between the first conduit portion and the second conduit portion; andremoving at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 88. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween; andremoving at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall. 89. A method of fusing a first conduit portion to a second conduit portion, comprising: heating and melting at least a portion of a first terminal edge of the first conduit portion and at least a portion of a first terminal edge of the second conduit portion, wherein the first conduit portion and the second conduit portion comprise a polyvinyl chloride material;butt fusing the at least one first conduit portion and the at least one second conduit portion together by engaging the heated and melted first terminal edge of the at least one first conduit portion with the heated and melted first terminal edge of the at least one second conduit portion, at an engagement interfacial pressure of about 140 psi, thereby creating a butt fused joint area therebetween, such that an interior sidewall of the first conduit portion is free of overlap with an interior sidewall of the second conduit portion, an interior sidewall of the first conduit portion is free of overlap with an exterior sidewall of the second conduit portion and an interior sidewall of the second conduit portion is free of overlap with an exterior sidewall of the first conduit portion; andremoving at least a portion of a resultant external bead extending around an external wall of the butt fused joint area, wherein the external bead is machined to between about ⅛ and about 1/16 of an inch of the fused conduit external wall.
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