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CYLINDRICAL GRINDING OF NITRIDED STEELS: GRINDABILITY, SPECIFIC ENERGY, TEMPERATURES, RESIDUAL STRESSES AND FATIGUE FAILURE

机译：氮化钢的圆柱磨削：可磨性，比能，温度，残余应力和疲劳破坏

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An investigation was made into plunge and traverse cylindrical grinding of nitrided steels in an industrial case involving premature fatigue failure due to residual stresses. The effect of nitriding on grindability was analyzed via specific-energy measurements. Residual stresses were analyzed, including: (1) compressive, from nitriding, with discussion on how this alters stress measurements in practice; (2) compressive, from plastic deformation from grinding; and (3) tensile, from thermal effects in grinding, including the alteration of the nitriding compressive effect. A thermal model was developed to predict surface temperatures in grinding -which were correlated to residual tensile stress measurements -allowing the reduction of stresses and the elimination of fatigue failure.

机译：在涉及由于残余应力而导致的过早疲劳失效的工业案例中，对氮化钢的切入和横向圆柱磨削进行了研究。通过比能测量分析了氮化对可磨性的影响。分析了残余应力，包括：（1）来自氮化的压缩应力，并讨论了如何在实践中改变应力测量; （2）受压，由磨削引起的塑性变形; （3）磨削中的热效应引起的拉伸，包括氮化压缩效应的改变。开发了一个热模型来预测磨削中的表面温度-与残余张应力测量值相关-可以减少应力并消除疲劳破坏。

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《ASME international manufacturing science and engineering conference 》|2014年|V002T02A011.1-V002T02A011.7|共7页
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Jeffrey Badger;
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1. Analysis of Measured and Predicted Residual Stresses Induced by Finish Cylindrical Grinding of High Speed Steel with CBN Wheel [J] . Haifa Sallem, Hédi Hamdi Procedia CIRP . 2015 ,第2期

机译：CBN轮高速钢精加工外圆磨削产生的残余应力的测量与预测分析。
2. Shear-mode grinding allowance to remove residual damage caused in brittle-model grinding -Change of specific grinding energy with decreasing brittle fractures- [J] . Kenichiro Imai, Hiroshi Hashimoto 精密工学会誌 . 1997 ,第7期

机译：剪切模式磨削余量可消除在脆性模式磨削中造成的残余损伤-随脆性断裂的减少而改变比磨削能量-
3. Investigation of the grinding temperature and energy partition during cylindrical grinding [J] . Ding Zishan, Jiang Xiaohui, Guo Miaoxian, The International Journal of Advanced Manufacturing Technology . 2018 ,第5a8期

机译：圆柱形研磨过程中研磨温度和能量分区的研究
4. CYLINDRICAL GRINDING OF NITRIDED STEELS: GRINDABILITY, SPECIFIC ENERGY, TEMPERATURES, RESIDUAL STRESSES AND FATIGUE FAILURE [C] . Jeffrey Badger ASME international manufacturing science and engineering conference . 2014

机译：氮化钢的圆柱形研磨：磨削性，特定能量，温度，残余应力和疲劳失效
5. RESIDUAL STRESSES IN GRINDING HARDENED STEEL (SUPERABRASIVES, TEMPERATURE, CUBIC BORON-NITRIDE). [D] . RAMANATH, SRINIVASAN. 1986

机译：磨削硬化钢时的残余应力（高温，高温，立方氮化硼）。
6. Internal Cylindrical Grinding Process of INCONEL® Alloy 600 Using Grinding Wheels with Sol–Gel Alumina and a Synthetic Organosilicon Polymer-Based Impregnate [O] . Wojciech Kapłonek, Krzysztof Nadolny, Krzysztof Rokosz, 2020

机译：INCONEL®600合金的内圆柱磨削工艺采用砂轮与溶胶-凝胶氧化铝和有机硅聚合物基浸渍胶合成
7. Analysis of Measured and Predicted Residual Stresses Induced by Finish Cylindrical Grinding of High Speed Steel with CBN Wheel [O] . Sallem Haifa, Hamdi Hédi 2015

机译：CBN轮高速钢精加工外圆磨削产生的残余应力的测量与预测分析。
8. Internal Grinding of High-Speed Steels: Shorter Processing Times with Boron Nitride Grinding Tools [R] . Borse, D. 1983

机译：高速钢的内部磨削：使用氮化硼磨削工具缩短加工时间

CYLINDRICAL GRINDING OF NITRIDED STEELS: GRINDABILITY, SPECIFIC ENERGY, TEMPERATURES, RESIDUAL STRESSES AND FATIGUE FAILURE

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