本帖最后由 373527271 于 2019-3-8 17:53 编辑
The compression members in the machine orstructural like the stick, bar, column or strut whose sections may be thedifferent geometry e.g. round, rectangle, channel or other form should be consideredthe issue crookedness under applied load. There are several factors contribute to buckling and the following equation show the relation of them. P/A=C*(π^2)*E/(l/k)^2; Usually called Euler equation. P, applied axial load; A, sectional area ofmember; C, boundary condition constant on table 1. Table 1 E, Young’s modulus of material; l, the lengthof member; k, the equivalent radial of section. I is the second moment of section area. I=A*k^2; l/k is defined as slenderness ratio. Actually the column is divided into three modelsthat are long column, intermediate-length column and short members according tothe l/k value. How to determine the threshold ofslenderness ratio? Here is the equation. L1=(2C*E*π^2/Sy ), Sy is the yield strength of material. If the actualvalue of l/k of member is greater than the L1 , we called the member as a longcolumn. The Euler equation can fairly handle this problem. L2=0.282(AE/P)^1/2, P is the applied load. If the actual value of l/k of member is less than , we called the member as shortcolumn or strut. The member will be as a pure compression issue. If the actual value of l/k of member between the two thresholds,we should use correction equation to figure out. Here is the equation. P/A=Sy-1/C*E(Sy /2π*l/k)^2. Usually called parabolic curve. Because of the manufacturing,assembly or commissioning, the work point of applied load is hardly toconcentric with the centroid of member. Therefore, eccentric load moment shouldbe taken into account when deal with the intermediate-length column and shortcolumn issue. 没事写写看书总结,写的比较简洁讲究看一下。以前8爷讲H型钢在做支撑件时,其受压的一翼也要考虑稳定性,这个当时没法理解。看了红毛的书以后想明白了,其实所有受压件达到一定长度时,都要考虑失稳问题,这是因为支撑件受压力时最外一层可以假想为纤维层会产生类似弹性片偏移平衡位置的现象达到一定应变极限时,最大偏移位置处被压溃。
| 
|小黑屋|手机版|Archiver|机械荟萃山庄
( 辽ICP备16011317号-1 )
发表于 2019-3-8 17:52:14
