共查询到19条相似文献,搜索用时 118 毫秒
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针对哈尔滨理工大学开发的三维复杂槽型波形刃铣刀片和平前刀面铣刀片,通过对耐热钢的面铣加工进行刀片粘结破损实验及槽型优选研究。首先,进行铣刀片三维温度场有限元分析,预测出波形刃铣刀片的抗粘结破损性能优良;其次,通过对温度场的模糊综合评判,预测了波形刃铣刀片的优越性能;最后,通过对难加工材料3Cr-1Mo-1/4V钢的面铣加工的实验研究,揭示了刀具粘结破损的实质,建立了铣削温度与前刀面最大粘结破损深度之间的数学模型,分析了铣削温度对刀具粘结破损的影响规律,并证明了波形刃铣刀片切削性能的优越性。 相似文献
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为获得切削性能更优良的可转位铣刀片槽型,从而改善铣刀片的力-热耦合综合物理场,进行了铣削温度试验和铣削力试验,以铣削时刀片的装夹状况和试验所获得的数据为边界条件,对带有三维槽型的波形刃铣刀片和平刀片分别进行了力-热耦合物理场有限元分析.基于模糊数学理论,建立了铣刀片耦合场的模糊综合评判模型,对两种铣刀片的力-热耦合物理场进行了模糊综合评判.结果表明,优化铣刀片前刀面的槽型可明显改善切削性能. 相似文献
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文中针对哈尔滨理工大学开发的三维复杂槽型波形刃铣刀片和平前刀面铣刀片,通过对碳素结构45钢的面铣加工进行了刀片冲击破损的实验研究。首先进行铣刀片三维应力场有限元分析及模糊综合评判,预测出波形刃铣刀片的抗冲击破损性能优良:其次,通过试验揭示不同铣刀片冲击破损失效形式的差异;通过大量、系统的冲击破损试验,建立冲击破损寿命累积分布函数数学模型,证明波形刃铣刀片的抗冲击破损性能优良。上述研究成果为解决自动化生产中刀具破损这一关键技术问题及槽型优选技术的研究提供了理论与试验基础。 相似文献
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三维复杂槽型铣刀片耦合场的数值模拟 总被引:1,自引:0,他引:1
为研究三维复杂槽型铣刀片的切削性能和失效机理,运用数值模拟技术对三维复杂槽型铣刀片和平前刀面铣刀片进行了热应力场、热应力与机械应力的耦合场分析。通过有限元分析,得到了两种铣刀片的应力集中区和危险区,经与试验结果对比,证明了有限元分析结果的正确性,说明三维槽型铣刀片具有优于平前刀面铣刀片的切削性能,从而预测在铣刀片上开出合理的槽型能有效地改善切削性能。 相似文献
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用改进后的铣削力测量装置进行了不同槽型的铣刀片铣削力试验。基于铣削试验结果,通过机床坐标系与刀体坐标系统的转换,确立了铣刀片应力场有限元分析的载荷边晃条件。利用ANSYS软件,进行了自主研发的三维槽型铣刀片和平刀面铣刀片的应力场有限元分析。有限元分析及试验结果均表明,三维槽型铣刀片的应力场及抗破损能力均好于平前刀面铣刀片。 相似文献
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Guangyu Tan Guangjun Liu Guanghui Li 《The International Journal of Advanced Manufacturing Technology》2009,44(7-8):631-637
This paper presents an experimental study on the adhesive wear of a milling insert with complex groove when milling 3Cr-1Mo-1/4V and 0Cr18Ni9 steels. Experimental measurements of milling temperature and milling force were performed. Then the adhesive behaviors and mechanisms between the steels and uncoated carbide were analyzed and discussed. It is found that the high temperature gradient, thermal stress, alternate compressive stress, and tensile stress in cut-in and cut-out, provide a situation for adhesion. Some suggestions for avoiding adhesive wear and the mechanism of adhesive wear of the insert are presented. 相似文献
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硬质合金铣刀片粘结破损的研究 总被引:1,自引:0,他引:1
针对铣削难加工材料时刀具粘结破损问题,进行了用平刀片和自主研发的复杂槽型铣刀片切削3Cr1Mo1/4V高温耐热钢的测温测力试验,同时采用高速摄影观察了铣刀片切入切出时粘结切屑脱落过程,应用有限元法分析了粘结破损时温度场和应力场耦舍后的等效合成应力。理论和试验数据分析结果表明,粘结破损的主要原因是工件和刀具材料的亲合力、铣刀片的等效合成应力大于硬质舍金的强度,改变铣刀片的槽型是提高抗粘结破损的有效方法。为三雏复杂槽型铣刀片槽型的优化和重构技术提供了理论依据和试验数据。 相似文献
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Xue-Hui Shen Jian-Hua Zhang Hua Li Jin-Jun Wang Xiao-Chen Wang 《The International Journal of Advanced Manufacturing Technology》2012,63(1-4):41-49
The objective of this paper is to investigate the effects of assisted ultrasonic vibration in the operation of micro end milling. Based upon numerical analysis for the trajectory of a tool tip of a two-flute end mill, it was found that the assisted feed direction ultrasonic vibration can achieve separate-type milling that is different from conventional operation by reasonable parameter matching. To validate theoretical analysis and investigate the influence of ultrasonic vibration on milling process, a slot-milling experiment was conducted on an aluminum alloy work piece. The desired ultrasonic vibration was applied in the feed direction by an ultrasonic vibrator. Through investigating and comparing some experimental results involving cutting force, chip formation, surface topography, surface roughness, and machining dimensional accuracy, the authors found that micro end milling with ultrasonic vibration in the feed direction leads to a pulse-like cutting force and produces uniform small chips. Assisted ultrasonic vibration in the feed direction has a negative effect on the surface roughness of the slot bottom, but a positive effect on the dimensional accuracy of the slot width. 相似文献