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身管材料烧蚀磨损性能研究 被引量:5
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作者 刘朋科 杨雕 +3 位作者 王军 岳孟坤 刘欢 徐宏英 《火炮发射与控制学报》 北大核心 2021年第4期28-33,共6页
火炮射击过程身管内膛在高温、高压以及高速摩擦下发生烧蚀和磨损等现象,当身管烧蚀磨损量达到一定程度,将引起火炮初速、密集度等性能的显著降低,使身管“寿命终了”,火炮失去作战能力,因此研究身管材料烧蚀、磨损性能对理解和延长身... 火炮射击过程身管内膛在高温、高压以及高速摩擦下发生烧蚀和磨损等现象,当身管烧蚀磨损量达到一定程度,将引起火炮初速、密集度等性能的显著降低,使身管“寿命终了”,火炮失去作战能力,因此研究身管材料烧蚀、磨损性能对理解和延长身管寿命具有重要的意义。通过身管材料烧蚀、磨损性能实验研究,发现在氧丙烷火焰烧蚀过程中,材料表面发生金属氧化和熔融,同时萌生密集的热裂纹并扩展,使得表面产生明显的烧蚀坑。身管材料在不同温度、摩擦速度、压力下的磨损过程中,磨损率随着压力的增大而增大,当摩擦速度小于1 m/s时,材料磨损率随着速度增加变化较小,在室温至300℃范围内,材料磨损率随着温度的升高而降低。 展开更多
关键词 身管材料 弹带材料 烧蚀 磨损
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高温风洞机器视觉系统:原理、设计与装备
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作者 张金松 屈哲 +5 位作者 岳孟坤 唐云龙 王显 陈连忠 杜百合 冯雪 《中国科学:技术科学》 EI CSCD 北大核心 2020年第6期742-762,共21页
在航空航天等领域,高温风洞模拟试验是对飞行器关键材料/结构进行防热性能评估和优化设计的重要方式.结合试验环境特点,发展面向高温风洞的机器视觉系统,以实现全方位、多角度的试验过程信息的获取,对于高温地面模拟试验技术的发展具有... 在航空航天等领域,高温风洞模拟试验是对飞行器关键材料/结构进行防热性能评估和优化设计的重要方式.结合试验环境特点,发展面向高温风洞的机器视觉系统,以实现全方位、多角度的试验过程信息的获取,对于高温地面模拟试验技术的发展具有重要意义.本文综述了面向高温风洞的机器视觉系统的概念原理、关键技术与装备设计,同时结合课题组在该领域的相关研究成果,对高温风洞机器视觉系统的应用实例进行了介绍.最后,基于高温风洞模拟试验的发展需求,对高温风洞机器视觉系统的未来发展方向和应用前景进行了展望. 展开更多
关键词 机器视觉系统 高温风洞 高温地面模拟试验 热防护系统 光学测量 氧化烧蚀
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Chemo-mechanical coupling effect on high temperature oxidation:A review 被引量:1
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作者 FANG XuFei LI Yan +1 位作者 yue mengkun FENG Xue 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2019年第8期1297-1321,共25页
The rapid development in the field of chemo-mechanical coupling has drawn increasing attention in recent years. Chemomechanical coupling phenomena exist in many research areas, ranging from development of advanced bat... The rapid development in the field of chemo-mechanical coupling has drawn increasing attention in recent years. Chemomechanical coupling phenomena exist in many research areas, ranging from development of advanced batteries, biomechanical engineering, hydrogen embrittlement, and high temperature oxidation, etc. In this review, we attempt to provide an overview of the recent advances in chemo-mechanical coupling study on high temperature oxidation. The theoretical frameworks, computational modeling, and experimental studies on this subject are summarized and discussed. The stress-diffusion coupling effect in diffusion-controlled oxidation process, stress-induced evolution of oxide morphology in microscale experiment, and stressoxidation interaction at crack front for intergranular fracture are highlighted. In addition, potential applications and possible methods via surface engineering for improving oxidation-resistance of high temperature structural materials are briefly discussed. 展开更多
关键词 chemo-mechanical COUPLING high temperature OXIDATION MICROSCALE EXPERIMENT FRACTURE
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Improved monochromatic pyrometry for synchronous measurement of full-field temperature and deformation 被引量:1
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作者 ZHANG JinSong yue mengkun +4 位作者 WANG JinYang TANG YunLong JIANG JinSong GUI YeWei FENG Xue 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2021年第9期2033-2046,共14页
Measuring the temperature and deformation synchronously at elevated temperatures is technically challenging and has become a major concern in the evaluation of mechanical properties. In this study, a simple, easy-to-i... Measuring the temperature and deformation synchronously at elevated temperatures is technically challenging and has become a major concern in the evaluation of mechanical properties. In this study, a simple, easy-to-implement, yet effective monochromatic pyrometry is established for non-contact and full-field temperature measurements, which can significantly reduce the error caused by the camera’s channel crosstalk that commonly occurs in the existing improved two-color method. In addition, hightemperature digital image correlation, combined with band-pass filtering and monochromatic illumination, is applied for deformation measurement. Subsequently, an experimental system was set up to validate the accuracy of the proposed method,which consists of a CCD camera for image capturing, a blue bandpass filter for radiation suppression, blue light irradiation for light compensation, and an infrared pyrometer for temperature recording. The results of the thermal heating experiment on the C/SiC sample proved that the selection of camera channel R in monochromatic pyrometry can reduce the error by channel crosstalk,and the proposed method is applicable for synchronous measurement of temperature and deformation. 展开更多
关键词 synchronous measurement monochromatic pyrometry high-temperature DIC
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