A gas turbine engine comprising a casing, a bonding patch (10, 22) bonded to a surface of the casing, and a liner attached to the bonding patch. The bonding patch (10, 22) comprising a bonding region (12) configured to receive an adhesive for bonding the patch (10, 22) to a surface. A plurality of d
A gas turbine engine comprising a casing, a bonding patch (10, 22) bonded to a surface of the casing, and a liner attached to the bonding patch. The bonding patch (10, 22) comprising a bonding region (12) configured to receive an adhesive for bonding the patch (10, 22) to a surface. A plurality of de-bonding elements (16) is configured to be movable relative to the bonding region (12) in response to an energizing signal.
대표청구항▼
1. A gas turbine engine comprising: a casing;a bonding patch bonded to a surface of the casing; anda liner attached to the bonding patch, the bonding patch including: a bonding region configured to receive an adhesive for bonding the patch to a surface, the bonding region being at least partially de
1. A gas turbine engine comprising: a casing;a bonding patch bonded to a surface of the casing; anda liner attached to the bonding patch, the bonding patch including: a bonding region configured to receive an adhesive for bonding the patch to a surface, the bonding region being at least partially defined by a floor of the patch; anda plurality of de-bonding elements projecting from a surface of the bonding region, the plurality of de-bonding elements being configured to be movable relative to the bonding region in response to receiving an energising signal, the plurality of de-bonding elements being configured to be embedded within the adhesive upon the adhesive being applied to the bonding region, the plurality of de-bonding elements being configured as an array of dimples formed in the floor to be thinner than a surrounding region of the floor, and to be movable relative to the bonding region in response to the energising signal. 2. The gas turbine engine according to claim 1, wherein the plurality of de-bonding elements are configured to vibrate in response to the energising signal. 3. The gas turbine engine according to claim 1, wherein the energising signal is an electrical signal or a sound wave. 4. The gas turbine engine according to claim 3, wherein a frequency of the energising signal is in an ultrasonic range. 5. The gas turbine engine according to claim 1, wherein the plurality of de-bonding elements include one or more transducers configured to be movable relative to the bonding region in response to the energising signal. 6. The gas turbine engine according to claim 5, wherein the one or more transducers includes one or more piezoelectric transducers configured to be receive an electrical signal causing the one or more piezoelectric transducers to move relative the bonding region. 7. The gas turbine engine according to claim 1, wherein: the plurality of de-bonding elements include a first group of de-bonding elements and a respective second group of de-bonding elements,the first group of de-bonding elements are configured to move resonantly in response to a first energising signal of a first frequency, andthe second group of de-bonding are configured to move resonantly in response to a second energising signal at a respectively different second frequency. 8. The gas turbine engine according to claim 1, wherein the casing is a fan casing. 9. The gas turbine engine according to claim 1, wherein the liner is a fan track liner and/or an impact liner. 10. A method of de-bonding a bonding patch from a surface of a casing of a gas turbine engine, the bonding patch including a bonding region containing an adhesive bonding the patch to the surface, and a plurality of de-bonding elements projecting from a surface of the bonding region, the plurality of de-bonding elements being configured to be movable relative to the bonding region in response to receiving an energising signal, the plurality of de-bonding elements being configured to be embedded within the adhesive upon the adhesive being applied to the bonding region, the method comprising: applying the energising signal to the bonding patch to move the movable de-bonding elements relative to the bonding region, applying the energising signal including sub-steps of: applying a first energising signal to the bonding patch at a first frequency to move resonantly a first group of the de-bonding elements, andapplying a respective second energising signal to the bonding patch at a respective second frequency to move resonantly a respective second group of the de-bonding elements; andremoving the bonding patch from the surface of the casing of the gas turbine engine. 11. The method of de-bonding a bonding patch according to claim 10, wherein applying the energising signal to the bonding patch includes generating a sound wave in the bonding patch to move the movable de-bonding elements. 12. The method of de-bonding a bonding patch according to claim 10, wherein: the de-bonding elements include one or more transducers configured to be movable relative to the bonding region in response to the energising signal, andthe method further comprises supplying the one or more transducers with a suitable electrical energising signal to move the transducers relative to the bonding region. 13. The method of de-bonding a bonding patch according to claim 12, wherein the one or more transducers are piezoelectric transducers. 14. The method of de-bonding a bonding patch according to claim 10, wherein the de-bonding elements are configured to vibrate in response to the energising signal. 15. The method of de-bonding a bonding patch according to claim 10, wherein the surface of the casing is provided by a fan casing of the gas turbine engine, and the bonding patch is further attached to a fan track liner and/or impact liner to bond the fan track liner and/or impact liner to the fan casing.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (4)
Engelbrecht Eckart (Andreasstr. 33 Hamburg DEX) Nieder Elmar (Hinterdeich 117 Jork DEX), Method of dissolving the bond between interconnected components.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.