基于方法创新的镁合金被覆剂设计
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摘要
为了解决镁合金被覆剂的"强度低、粘连性差"的问题,通过"功能分析、因果分析、资源分析"等方法对问题进行分析,找出镁合金被覆剂的"强度低、粘连性差"的主要原因;并在TRIZ理论中建立模型,找出解决问题的冲突原理和效应,结合解决原理对现有镁合金被覆剂进行创新设计.结果表明:改进后的被覆剂能够防止"强度低、粘连性差"问题的发生,且改进后的被覆剂使用成本仅为原成本的1!,产生了较好的经济效益.
In order to solve the problem"low intensity and poor adhesion"of magnesium alloy coating agent,the main reason of magnesium alloy coating agent with "low intensity and poor adhesion"has been found by analyzing the problem through the "functional analysis,causal analysis,resource analysis"and other analyzing methods; And through modeling in TRIZ theory,the conflict principle and effect for solving the problem have been found; the innovative design for the existing magnesium alloy coating agent has been made by combining with the principle of solving the problem. The results show that the improved costing agent can avoid presenting the problem"low intensity and poor adhesion",and the use-cost of the improved is only 1!of the original cost. It brought good economic results by using the improved agent.
In order to solve the problem"low intensity and poor adhesion"of magnesium alloy coating agent,the main reason of magnesium alloy coating agent with "low intensity and poor adhesion"has been found by analyzing the problem through the "functional analysis,causal analysis,resource analysis"and other analyzing methods; And through modeling in TRIZ theory,the conflict principle and effect for solving the problem have been found; the innovative design for the existing magnesium alloy coating agent has been made by combining with the principle of solving the problem. The results show that the improved costing agent can avoid presenting the problem"low intensity and poor adhesion",and the use-cost of the improved is only 1!of the original cost. It brought good economic results by using the improved agent.
引文
[1]牛占文,徐燕申,林岳.发明创造的科学方法论—TRIZ[J].中国机械工程,1999,10(1):84-89.
[2]熊高云,刘国发,赵潇,等.基于TRIZ理论的烟叶除麻设备技术改进[J].机械制造与自动化,2013(3):148-149.
[3]刘光启,马连湘,刘杰,青岛化工学院,等.化学化工物性数据手册(无机卷)[M].北京:化学工业出版社,2002:10-11,150-155,315-316.
[4]王广彦,徐慎勇.TRIZ理论在产品维修性设计中的应用[J].兵工自动化,2005(5):65-66.
[5]陆艳红,陈哲.被覆剂的研究及应用[J].硅谷,2009(20):13-17.
[6]胡皓.耐高温压铸被覆剂评测及应用[J].特种铸造及有色合金,2012(9):85-86.
[2]熊高云,刘国发,赵潇,等.基于TRIZ理论的烟叶除麻设备技术改进[J].机械制造与自动化,2013(3):148-149.
[3]刘光启,马连湘,刘杰,青岛化工学院,等.化学化工物性数据手册(无机卷)[M].北京:化学工业出版社,2002:10-11,150-155,315-316.
[4]王广彦,徐慎勇.TRIZ理论在产品维修性设计中的应用[J].兵工自动化,2005(5):65-66.
[5]陆艳红,陈哲.被覆剂的研究及应用[J].硅谷,2009(20):13-17.
[6]胡皓.耐高温压铸被覆剂评测及应用[J].特种铸造及有色合金,2012(9):85-86.