故障的分析、尺寸的决定以及凸轮的分析和应用------外文翻译.doc
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故障的分析、尺寸的决定以及凸轮的分析和应用------外文翻译,introductionit is absolutely essential that a design engineer know how and why parts fail so that reliable machines that require minimum maintenance can be desi...
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INTRODUCTION
It is absolutely essential that a design engineer know how and why parts fail so that reliable machines that require minimum maintenance can be designed.Sometimes a failure can be serious,such as when a tire blows out on an automobile traveling at high speed.On the other hand,a failure may be no more than a nuisance.An example is the loosening of the radiator hose in an automobile cooling system.The consequence of this latter failure is usually the loss of some radiator coolant,a condition that is readily detected and corrected.
The type of load a part absorbs is just as significant as the magnitude.Generally speaking,dynamic loads with direction reversals cause greater difficulty than static loads,and therefore,fatigue strength must be considered.Another concern is whether the material is ductile or brittle.For example,brittle materials are considered to be unacceptable where fatigue is involved.
Many people mistakingly interpret the word failure to mean the actual breakage of a part.However,a design engineer must consider a broader understanding of what appreciable deformation occurs.A ductile material,however will deform a large amount prior to rupture.Excessive deformation,without fracture,may cause a machine to fail because the deformed part interferes with a moving second part.Therefore,a part fails(even if it has not physically broken)whenever it no longer fulfills its required function.Sometimes failure may be due to abnormal friction or vibration between two mating parts.Failure also may be due to a phenomenon called creep,which is the plastic flow of a material under load at elevated temperatures.In addition,the actual shape of a part may be responsible for failure.For example,stress concentrations due to sudden changes in contour must be taken into account.eva luation of stress considerations is especially important when there are dynamic loads with direction reversals and the material is not very ductile.
In general,the design engineer must consider all possible modes of failure,which include the following.
前言介绍:
作为一名设计工程师有必要知道零件如何发生和为什么会发生故障,以便通过进行最低限度的维修以保证机器的可靠性。有时一次零件的故障或者失效可能是很严重的一件事情,比如,当一辆汽车正在高速行驶的时候,突然汽车的轮胎发生爆炸等。另一方面,一个零件发生故障也可能只是一件微不足道的小事,只是给你造成了一点小麻烦。一个例子是在一个汽车冷却系统里的暖气装置软管的松动。后者发生的这次故障造成的结果通常只不过是一些暖气装置里冷却剂的损失,是一种很容易被发现并且被改正的情况。
能够被零件进行吸收的载荷是相当重要的。一般说来,与静载重相比较,有两个相反方向的动载荷将会引起更大的问题,因此,疲劳强度必须被考虑。另一个关键是材料是可延展性的还是脆性的。例如,脆的材料被认为在存在疲劳的地方是不能够被使用的。
很多人错误的把一个零件发生故障或者失效理解成这样就意味着一个零件遭到了实际的物理破损。无论如何,一名设计工程师必须从一个更广泛的范围来考虑和理解变形是究竟如何发生的。一种具有延展性的材料,在破裂之前必将发生很大程度的变形。发生了过度的变形,但并没有产生裂缝,也可能会引起一台机器出毛病,因为发生畸变的零件会干扰下一个零件的移动。因此,每当它不能够再履行它要求达到的性能的时候,一个零件就都算是被毁坏了(即使它的表面没有被损毁)。有时故障可能是由于两个两个相互搭配的零件之间的不正常的磨擦或者异常的振动引起的。故障也可能是由一种叫蠕变的现象引起的,这种现象是指金属在高温下时一种材料的塑性流动。此外,一个零件的实际形状可能会引起故障的发生。例如,应力的集中可能就是由于轮廓的突然变化引起的,这一点也需要被考虑到。当有用两个相反方向的动载荷,材料不具有很好的可延展性时,对应力考虑的评估就特别重要。
一般说来,设计工程师必须考虑故障可能发生的全部方式,包括如下一些方面:
It is absolutely essential that a design engineer know how and why parts fail so that reliable machines that require minimum maintenance can be designed.Sometimes a failure can be serious,such as when a tire blows out on an automobile traveling at high speed.On the other hand,a failure may be no more than a nuisance.An example is the loosening of the radiator hose in an automobile cooling system.The consequence of this latter failure is usually the loss of some radiator coolant,a condition that is readily detected and corrected.
The type of load a part absorbs is just as significant as the magnitude.Generally speaking,dynamic loads with direction reversals cause greater difficulty than static loads,and therefore,fatigue strength must be considered.Another concern is whether the material is ductile or brittle.For example,brittle materials are considered to be unacceptable where fatigue is involved.
Many people mistakingly interpret the word failure to mean the actual breakage of a part.However,a design engineer must consider a broader understanding of what appreciable deformation occurs.A ductile material,however will deform a large amount prior to rupture.Excessive deformation,without fracture,may cause a machine to fail because the deformed part interferes with a moving second part.Therefore,a part fails(even if it has not physically broken)whenever it no longer fulfills its required function.Sometimes failure may be due to abnormal friction or vibration between two mating parts.Failure also may be due to a phenomenon called creep,which is the plastic flow of a material under load at elevated temperatures.In addition,the actual shape of a part may be responsible for failure.For example,stress concentrations due to sudden changes in contour must be taken into account.eva luation of stress considerations is especially important when there are dynamic loads with direction reversals and the material is not very ductile.
In general,the design engineer must consider all possible modes of failure,which include the following.
前言介绍:
作为一名设计工程师有必要知道零件如何发生和为什么会发生故障,以便通过进行最低限度的维修以保证机器的可靠性。有时一次零件的故障或者失效可能是很严重的一件事情,比如,当一辆汽车正在高速行驶的时候,突然汽车的轮胎发生爆炸等。另一方面,一个零件发生故障也可能只是一件微不足道的小事,只是给你造成了一点小麻烦。一个例子是在一个汽车冷却系统里的暖气装置软管的松动。后者发生的这次故障造成的结果通常只不过是一些暖气装置里冷却剂的损失,是一种很容易被发现并且被改正的情况。
能够被零件进行吸收的载荷是相当重要的。一般说来,与静载重相比较,有两个相反方向的动载荷将会引起更大的问题,因此,疲劳强度必须被考虑。另一个关键是材料是可延展性的还是脆性的。例如,脆的材料被认为在存在疲劳的地方是不能够被使用的。
很多人错误的把一个零件发生故障或者失效理解成这样就意味着一个零件遭到了实际的物理破损。无论如何,一名设计工程师必须从一个更广泛的范围来考虑和理解变形是究竟如何发生的。一种具有延展性的材料,在破裂之前必将发生很大程度的变形。发生了过度的变形,但并没有产生裂缝,也可能会引起一台机器出毛病,因为发生畸变的零件会干扰下一个零件的移动。因此,每当它不能够再履行它要求达到的性能的时候,一个零件就都算是被毁坏了(即使它的表面没有被损毁)。有时故障可能是由于两个两个相互搭配的零件之间的不正常的磨擦或者异常的振动引起的。故障也可能是由一种叫蠕变的现象引起的,这种现象是指金属在高温下时一种材料的塑性流动。此外,一个零件的实际形状可能会引起故障的发生。例如,应力的集中可能就是由于轮廓的突然变化引起的,这一点也需要被考虑到。当有用两个相反方向的动载荷,材料不具有很好的可延展性时,对应力考虑的评估就特别重要。
一般说来,设计工程师必须考虑故障可能发生的全部方式,包括如下一些方面:
