李方义
-
教授
博士生导师
硕士生导师
- 性别:男
- 出生日期:1969-12-11
- 毕业院校:清华大学
- 学历:研究生(博士)毕业
- 学位:工学博士学位
- 在职信息:在职
- 所在单位:机械工程学院
- 入职时间: 1994-07-16
访问量:
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[301]
李方义.
生物质全降解材料微观组织结构与性能关系研究.
《功能材料》,
2011.
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[302]
李方义.
Mechanism Design of Palletizing Robot Based on Translating Cam Principle .
Transactions of Tianjin University,
2012.
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[303]
李方义.
面向机电产品方案设计的绿色特征建模.
《计算机集成制造系统》,
2012.
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[304]
李方义.
HT250冷焊表面残余应力试验 .
焊接学报,
2012.
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[305]
李方义.
冷焊工艺参数对 HT250 表面修复层性能的影响.
机械工程学报,
2013.
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[306]
李方义.
Ingredient of biomass packaging material and compare study on cushion properties .
International Journal of Polymer Science,
2013.
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[307]
李方义.
KNO3-NaNO2二元熔盐体系的表面张力及粘度研究.
《功能材料》,
2014.
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[308]
李方义.
基于绿色特征的方案设计快速生命周期评价方法.
《计算机集成制造系统》,
2014.
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[309]
李方义.
单一/复合塑化剂制备复合材料中热塑性淀粉基质的研究.
《功能材料》,
2014.
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[310]
李方义.
纤维/淀粉复合处理对生物质缓冲包装材料性能的影响.
《功能材料》,
2014.
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[311]
李方义.
Mechanism design of palletizing robot based on translating cam principle.
Transactions of Tianjin University,
2012.
-
[312]
李方义.
基于稀疏网格的近似模型及其在轻量化设计中的应用.
机械工程学报,
2013.
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[313]
李方义.
Effect of Starch Plasticizing/Fiber Processing on the Mechanical Properties of Biomass Cushion Packa.
JOURNAL OF BIOBASED MATERIALS AND BIOENERGY,
2014.
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[314]
李方义.
高压水射流清洗对基体去污效果及损伤的研究.
中国机械工程,
2014.
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[315]
李方义.
Research on mapping relation-ships between conceptual design for green feature.
The 6th international conference design and manufacture for sustainable development,
2013.
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[316]
李方义.
Effect of Fiber Treatment/Starch Plasticization on Structure and Mechanical Properties of Biomass Cu.
Applied mechanics and materials,
2013.
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[317]
李方义.
Mapping Relationships among Design Information for Green Feature.
Advanced Materials research,
2013.
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[318]
李方义.
Simulation of Ultrasonic Cleaning and Experimental Study of the Liquid Level Adjusting Method.
Re-engineering Manufacturing for Sustainability/ The 20th CIRP Conference on Life Cycle Engineering,
2013.
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[319]
李剑峰 and 李方义.
Applications of Infrared Spectrometry in Molecular Groups Analysis of Plasticized Starch.
Advanced Materials research,
2013.
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[320]
李方义.
Rheological Properties of Slurry of Foam Cushion Packaging based on Fiber and Starch.
Advanced Materials research,
2013.