In aero engines a thermally sprayed abradable lining is applied to the inside of the casing in order to provide a seal around the tips of the compressor blades. As engines become more efficient the materials used must be able to endure higher temperatures and moving parts must be made lighter. This combination is not currently possible in late stages of the compressor as hard abradable materials can cause titanium blades to wear excessively. One solution to this is to add a surface treatment to the blade tips.ududTwo surface treatments have been investigated, firstly cubic boron nitride (cBN) grits are bonded to the tip of the blade by electroplating. Secondly blades are coated in Cr(Al)N by cathodic arc deposition. The performance of these surface treatments is investigated on a test rig capable of monitoring the blade length, rub forces and abradable temperature during the test. Additional tests are performed against stepped coatings giving insight into the condition of the blade and abradable during the test. S.E.M., E.D.S., X.R.F., profilometry and wear debris have been used to characterise the wear mechanisms produced during the tests.ududGrit (cBN) tipped blades load with abradable material after a period of efficient cutting causing grit pull out and fracture. Flat Cr(Al)N coated blades failed due to thermal damage to the coating caused by adhesion of abradable material onto the Cr(Al)N coating, while chamfered blades cut efficiently at low incursion rates.
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机译:在航空发动机中,热喷涂的耐磨衬里被施加到壳体的内部,以便在压缩机叶片的尖端周围提供密封。随着发动机效率的提高,所使用的材料必须能够承受更高的温度,并且移动部件必须更轻。目前这种组合在压缩机的后期阶段是不可能的,因为硬质耐磨材料会导致钛合金叶片过度磨损。一种解决方案是对叶片尖端进行表面处理。 ud ud已研究了两种表面处理方法,首先是通过电镀将立方氮化硼(cBN)砂粒粘结到叶片尖端。其次,通过阴极电弧沉积将叶片涂覆在Cr(Al)N中。这些表面处理的性能是在能够在测试过程中监控叶片长度,摩擦力和耐磨温度的测试设备上进行研究的。针对阶梯状涂层执行了其他测试,从而深入了解了刀片的状况以及在测试过程中的耐磨性。 S.E.M.,E.D.S.,X.R.F。,轮廓测量法和磨损碎片已用于表征测试过程中产生的磨损机制。 ud udGrit(cBN)尖头刀片经过一段时间的有效切割后会加载可磨蚀的材料,从而导致砂砾拉出和破裂。平坦的Cr(Al)N涂层刀片由于耐磨材料粘附到Cr(Al)N涂层而对涂层产生热损伤而失效,而倒角的刀片在低侵入率下有效切割。
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