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1、为何需要使用用户材料子程序(User-Defined Material, UMAT )?很简单,当ABAQUS 没有提供我们需要的材料模型时。
所以,在决定自己定义一种新的材料模型之前,最好对ABAQUS 已经提供的模型心中有数,并且尽量使用现有的模型,因为这些模型已经经过详细的验证,并被广泛接受。
UMAT 子程序具有强大的功能,使用UMAT 子程序:(1)可以定义材料的本构关系,使用ABAQUS 材料库中没有包含的材料进行计算,扩充程序功能。
(2) 几乎可以用于力学行为分析的任何分析过程,几乎可以把用户材料属性赋予ABAQU S 中的任何单元。
(3) 必须在UMAT 中提供材料本构模型的雅可比(Jacobian )矩阵,即应力增量对应变增量的变化率。
(4) 可以和用户子程序“USDFLD ”联合使用,通过“USDFLD ”重新定义单元每一物质点上传递到UMAT 中场变量的数值。
2、需要哪些基础知识?先看一下ABAQUS 手册(ABAQUS Analysis User's Manual )里的一段话:Warning: The use of this option generally requires considerable expertise(一定的专业知识). The user is cautioned that the implementation (实现) of any realistic constitutive (基本) model requires extensive (广泛的) development and testing. Initial testing on a single eleme nt model with prescribed traction loading (指定拉伸载荷) is strongly recommended. 但这并不意味着非力学专业,或者力学基础知识不很丰富者就只能望洋兴叹,因为我们的任务不是开发一套完整的有限元软件,而只是提供一个描述材料力学性能的本构方程(Constitutive equation )而已。
《ABAQUS用户材料子程序开发及应用》篇一一、引言ABAQUS是一款广泛应用的工程仿真软件,可用于分析复杂的工程问题,包括结构力学、热传导、流体流动等多个领域。
其中,用户材料子程序(User Material Subroutine)是ABAQUS软件中用于描述材料行为的重要部分。
通过编写用户材料子程序,用户可以自定义材料的本构关系和物理属性,以满足特定仿真需求。
本文将介绍ABAQUS用户材料子程序的开发方法及其应用。
二、ABAQUS用户材料子程序开发1. 需求分析在开发ABAQUS用户材料子程序之前,首先需要对所研究的问题进行深入的需求分析。
这包括确定所使用的材料类型、材料的本构关系、物理属性等关键信息。
同时,还需要考虑所使用材料在不同条件下的性能变化以及可能出现的复杂行为。
2. 编程语言及工具ABAQUS提供了多种编程语言用于编写用户材料子程序,如Fortran、C++等。
用户可以根据自己的编程习惯和需求选择合适的编程语言。
此外,还需要使用相应的编译器和开发环境进行编译和调试。
3. 编写用户材料子程序在编写用户材料子程序时,需要遵循ABAQUS的编程规范和接口要求。
具体而言,需要定义材料的本构关系、物理属性等关键信息,并编写相应的计算过程和算法。
此外,还需要注意程序的稳定性和效率问题。
4. 调试与测试在完成用户材料子程序的编写后,需要进行调试和测试。
这包括检查程序的语法错误、逻辑错误等问题,并进行单元测试和整体测试。
同时,还需要对仿真结果进行验证和分析,确保所编写的用户材料子程序能够满足实际需求。
三、ABAQUS用户材料子程序的应用1. 金属材料仿真ABAQUS用户材料子程序可广泛应用于金属材料的仿真分析。
例如,在金属塑性成形过程中,可以通过编写用户材料子程序来描述金属的塑性行为、弹性行为等关键信息。
这有助于提高仿真精度和效率,为金属成形工艺的优化提供有力支持。
2. 复合材料仿真复合材料因其具有优异的性能而被广泛应用于航空、航天、汽车等领域。
abaqus用户子程序vusdfld单元积分点出的极限应变摘要:一、abaqus 用户子程序vusdfld 单元介绍1.vusdfld 单元的作用2.与其他单元的比较二、积分点出的极限应变概念1.极限应变的定义2.为什么需要研究极限应变三、abaqus 中vusdfld 单元的实现1.vusdfld 单元的积分点2.计算极限应变的方法四、实例分析1.模型描述2.结果展示正文:一、abaqus 用户子程序vusdfld 单元介绍abaqus 是一款广泛应用于工程领域的有限元分析软件。
在abaqus 中,用户可以通过自定义子程序来实现特定功能。
vusdfld 单元是abaqus 中的一个用户子程序单元,主要用于计算材料在接触过程中的摩擦力和法向反力。
与其他单元相比,vusdfld 单元具有更高的精度和更快的计算速度,因此在复杂模型中得到了广泛应用。
二、积分点出的极限应变概念在有限元分析中,极限应变是指材料在外力作用下所能承受的最大应变。
研究极限应变对于了解材料的疲劳性能、安全系数等至关重要。
在abaqus 中,通过积分点出的极限应变,可以更好地评估材料在实际工况下的性能表现。
三、abaqus 中vusdfld 单元的实现在abaqus 中,vusdfld 单元的积分点用于计算材料在接触过程中的摩擦力和法向反力。
计算极限应变的方法主要基于材料力学理论,通过求解材料在接触过程中的应力分布,进而得到极限应变。
具体实现过程需要借助abaqus 软件的求解器进行计算。
四、实例分析为更好地理解vusdfld 单元在abaqus 中的实际应用,我们通过一个简单的实例进行分析。
模型描述如下:一个圆形板与一个矩形板在接触过程中,需要计算圆形板上的极限应变。
通过abaqus 软件中的vusdfld 单元,我们可以得到圆形板上的应力分布,进而计算出极限应变。
实例:最简单的杆件单轴拉伸,材料本构模型采用线弹性模型,E=206000MPa, ν=0.3。
左端约束,右端施加均布力q=1。
Author: xueweek 希望这个小例子能帮助初学者减少一两天的摸索时间1 材料本构模型:σ=Eε在Property 中定义材料时,在General 下选中User Material,输入206000,0.3。
以上两个数值代表E、ν,在用户子程序中代表着PROPS(1)、PROPS(2)。
然后在General下选中Depvar,由于该例子中没有使用状态变量,因此在第一项中输入大于0 的数值即可。
建模大家都会,故省略2 ABAQUS 调用用户子程序大家在论坛上也可以看到很多方法,我这里指介绍最简单的一种。
在Job Manager 中点击Edit 选项,在General 选项的最后一项中选择自己建立好的用户子程序文件。
(注:用户子程序文件可以使用文本编辑器进行编辑,当然也可以用Fortran编译器,如果对自己的用户子程序文件的语法不放心,可以先用Fortan 编译器进行编译,不过编译前要先建立Project,关于Fortran 编译,这里不再介绍)。
完成后,点击submit 即可进行分析。
3 结果以下两张图分布是用户子程序和ABAQUS 自带的材料模型得到的应力云图,可以看出两种图形完全相同。
4 UMAT 子程序对于初学者来说,需要注意的是,FORTRAN 对于程序语言格式上的要求。
例如,对于FORTRAN 语言,前六个字符必须空出来,等等。
检查语法最好的方法就是在FORTRAN 编译器上进行编译。
SUBROUTINE UMAT(STRESS,STATEV,DDSDDE,SSE,SPD,SCD,RPL,DDSDDT,1 DRPLDE,DRPLDT,STRAN,DSTRAN,TIME,DTIME,TEMP,DTEMP,PREDEF,DPRED,2 CMNAME,NDI,NSHR,NTENS,NSTATV,PROPS,NPROPS,COORDS,DROT,3 PNEWDT,CELENT,DFGRD0,DFGRD1,NOEL,NPT,LAYER,KSPT,KSTEP,KINC)include 'aba_param.inc'CHARACTER*8 CMNAMEDIMENSION STRESS(NTENS),STATEV(NSTATV),DDSDDE(NTENS,NTENS),1 DDSDDT(NTENS),DRPLDE(NTENS),STRAN(NTENS),DSTRAN(NTENS),2 TIME(2),PREDEF(1),DPRED(1),PROPS(NPROPS),COORDS(3),DROT(3,3),3 DFGRD0(3,3),DFGRD1(3,3)C UMAT FOR ISOTROPIC ELASTICITYC CANNOT BE USED FOR PLANE STRESSC ----------------------------------------------------------------C PROPS(1) - EC PROPS(2) - NUC ----------------------------------------------------------------CIF (NDI.NE.3) THENWRITE (6,*) 'THIS UMAT MAY ONLY BE USED FOR ELEMENTS1 WITH THREE DIRECT STRESS COMPONENTS'CALL XITENDIFCC ELASTIC PROPERTIESEMOD=PROPS(1)ENU=PROPS(2)EBULK3=EMOD/(1-2*ENU)EG2=EMOD/(1+ENU)EG=EG2/2EG3=3*EGELAM=(EBULK3-EG2)/3CC ELASTIC STIFFNESSCDO K1=1, NDIDO K2=1, 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1、为何需要使用用户材料子程序(User-Defined Material, UMAT )?很简单,当ABAQUS 没有提供我们需要的材料模型时。
所以,在决定自己定义一种新的材料模型之前,最好对ABAQUS 已经提供的模型心中有数,并且尽量使用现有的模型,因为这些模型已经经过详细的验证,并被广泛接受。
UMAT 子程序具有强大的功能,使用UMAT 子程序:(1)可以定义材料的本构关系,使用ABAQUS 材料库中没有包含的材料进行计算,扩充程序功能。
(2) 几乎可以用于力学行为分析的任何分析过程,几乎可以把用户材料属性赋予ABAQU S 中的任何单元。
(3) 必须在UMAT 中提供材料本构模型的雅可比(Jacobian )矩阵,即应力增量对应变增量的变化率。
(4) 可以和用户子程序“USDFLD ”联合使用,通过“USDFLD ”重新定义单元每一物质点上传递到UMAT 中场变量的数值。
2、需要哪些基础知识?先看一下ABAQUS 手册(ABAQUS Analysis User's Manual )里的一段话:Warning: The use of this option generally requires considerable expertise(一定的专业知识). The user is cautioned that the implementation (实现) of any realistic constitutive (基本) model requires extensive (广泛的) development and testing. Initial testing on a single eleme nt model with prescribed traction loading (指定拉伸载荷) is strongly recommended. 但这并不意味着非力学专业,或者力学基础知识不很丰富者就只能望洋兴叹,因为我们的任务不是开发一套完整的有限元软件,而只是提供一个描述材料力学性能的本构方程(Constitutive equation )而已。
《ABAQUS用户材料子程序开发及应用》篇一一、引言随着计算机技术的迅猛发展,有限元分析软件在工程领域的应用越来越广泛。
ABAQUS作为一款功能强大的有限元分析软件,其在材料模拟、结构分析、热传导等方面具有广泛的应用。
其中,用户材料子程序的开发是ABAQUS功能的重要组成部分,它允许用户根据实际需求自定义材料模型,提高模拟的准确性和可靠性。
本文将介绍ABAQUS用户材料子程序的开发流程、应用领域及实际案例。
二、ABAQUS用户材料子程序开发流程1. 需求分析:明确材料模型的需求和特点,确定子程序的类型(如弹塑性、蠕变等)。
2. 理论建模:根据需求,建立相应的数学模型和物理模型。
3. 编程实现:使用ABAQUS提供的编程接口(如Fortran、C++等),编写用户材料子程序。
4. 调试与验证:对编写的子程序进行调试和验证,确保其正确性和可靠性。
5. 集成与测试:将子程序集成到ABAQUS中,进行整体测试,确保模拟结果的准确性。
三、ABAQUS用户材料子程序应用领域1. 金属材料:用户材料子程序可用于模拟金属的弹塑性、蠕变、疲劳等行为。
2. 聚合物材料:用于模拟聚合物材料的粘弹性、蠕变、塑性等行为。
3. 复合材料:用于模拟复合材料的力学性能和损伤演化等行为。
4. 高温超导材料:用于模拟高温超导材料的电性能和磁性能等行为。
四、实际案例分析以金属材料的弹塑性行为为例,介绍ABAQUS用户材料子程序的开发及应用。
1. 需求分析:金属材料在受到外力作用时,会表现出弹性和塑性行为。
为了更准确地模拟这一行为,需要开发一个弹塑性用户材料子程序。
2. 理论建模:根据金属的弹塑性理论,建立相应的数学模型和物理模型。
包括弹性阶段、屈服阶段和塑性流动阶段的描述。
3. 编程实现:使用Fortran或C++编写用户材料子程序,实现模型的数学描述。
4. 调试与验证:对编写的子程序进行调试和验证,确保其正确性和可靠性。
可以通过对比实验数据和模拟结果来验证子程序的准确性。
ABAQUS用户子程序123ABAQUS/Standard subroutines:41.CREEP: Define time-dependent, viscoplastic behavior (creep and 5swelling).6定义和时间相关的、粘塑性的运动(蠕变和膨胀)2. DFLOW: Define nonuniform pore fluid velocity in a 78consolidation analysis.9在压实分析中,定义非均匀孔隙流速度3. DFLUX: Define nonuniform distributed flux in a heat transfer1011or mass diffusion analysis.在热传递和质量扩散分析中,定义非均匀的分布流量12134. DISP: Specify prescribed boundary conditions.14指定规定的边界条件5. DLOAD: Specify nonuniform distributed loads.1516指定非均匀的分布荷载176. FILM: Define nonuniform film coefficient and associated sink 18temperatures for heat19transfer analysis.20对热传递分析指定非均匀的膜层散热系数和联合的散热器温度7. FLOW: Define nonuniform seepage coefficient and associated2122sink pore pressure for23consolidation analysis.对压实分析定义非均匀的渗流系数和渗入孔隙压力24258. FRIC: Define frictional behavior for contact surfaces.26对接触面定义摩擦279. GAPCON: Define conductance between contact surfaces or nodes 28in a fully coupled29temperature-displacement analysis or pure heat transfer analysis.30在一个完全耦合的温度—置换分析或者是纯热传递分析中,定义31接触面或节点间的导热系数。
ABAQUS用户子程序ABAQUS/Standard subroutines:1.CREEP: Define time-dependent, viscoplastic behavior (creep and swelling).定义和时间相关的、粘塑性的运动(蠕变和膨胀)2. DFLOW: Define nonuniform pore fluid velocity in a consolidation analysis.在压实分析中,定义非均匀孔隙流速度3. DFLUX: Define nonuniform distributed flux in a heat transfer or mass diffusion analysis.在热传递和质量扩散分析中,定义非均匀的分布流量4. DISP: Specify prescribed boundary conditions.指定规定的边界条件5. DLOAD: Specify nonuniform distributed loads.指定非均匀的分布荷载6. FILM: Define nonuniform film coefficient and associated sink temperatures for heat transfer analysis.对热传递分析指定非均匀的膜层散热系数和联合的散热器温度7. FLOW: Define nonuniform seepage coefficient and associated sink pore pressure for consolidation analysis.对压实分析定义非均匀的渗流系数和渗入孔隙压力8. FRIC: Define frictional behavior for contact surfaces.对接触面定义摩擦9. GAPCON: Define conductance between contact surfaces or nodes in a fully coupled temperature-displacement analysis or pure heat transfer analysis.在一个完全耦合的温度—置换分析或者是纯热传递分析中,定义接触面或节点间的导热系数。
10. GAPELECTR: Define electrical conductance between surfaces in a coupled thermal-electrical analysis.在耦合热电分析中,定义表面间的导电系数11. HARDINI: Define initial equivalent plastic strain and initial backstress tensor.定义初始等效应变和初始反应力张量12. HETVAL: Provide internal heat generation in heat transfer analysis.在热传递分析中提供初始热13. MPC: Define multi-point constraints.定义多点约束14. ORIENT: Provide an orientation for defining local material directions or local directions for kinematic coupling constraints or local rigid body directions for inertia relief.为定义局部材料方向提供定位;运动学耦合约束的局部方向;惯性释放的局部刚体方向。
15. RSURFU: Define a rigid surface.定义一个刚性面16. SDVINI: Define initial solution-dependent state variable fields.定义初始和结果相关的变量场17. SIGINI: Define an initial stress field.定义初始应力场18.UCORR: Define cross-correlation properties for random response loading.为随机相应荷载定义互相关属性19. UEL: Define an element.定义单元20. UEXPAN: Define incremental thermal strains.定义增加的热应变21. UEXTERNALDB: Manage user-defined external databases and calculatemodel-independent history information.管理用户定义的外部数据和计算与模型无关的历史资料。
22. UFIELD: Specify predefined field variables.指定预定义的场变量23. UFLUID: Define fluid density and fluid compliance for hydrostatic fluid elements.为静水力学流体单元定义流体密度和流体柔量。
24. UGENS: Define the mechanical behavior of a shell section.定义一个壳截面的机械运动25. UHARD: Define the yield surface size and hardening parameters for isotropic plasticity or combined hardening models.在等方性塑性或者组合硬化模型中,定义屈服面尺寸和硬化系数26. UHYPEL: Define a hypoelastic stress-strain relation.定义一个次弹性的应力应变关系27. UHYPER: Define a hyperelastic material.定义一个超弹性材料28. UINTER: Define surface interaction behavior for contact surfaces.为接触面定义表面相互作用29. UMASFL: Specify prescribed mass flow rate conditions for a convection/diffusion heat transfer analysis.在对流\扩散热传递分析中,指定规定的质量流动比条件30. UMAT: Define a material’s mechanical beh avior定义材料的机械运动31. UMATHT: Define a material’s thermal behavior.定义材料的热运动32. UMESHMOTION: Specify mesh motion constraints during adaptive meshing.在适应的网格划分中,指定网格运动约束33. UMOTION: Specify motions during cavity radiation heat transfer analysis or steady-state transport analysis.在辐射热传递分析或稳态传输分析中,指定运动34.UMULLINS: Define damage variable for the Mullins effect material model.对马林斯效应材料模型定义损伤变量35. UPOREP: Define initial fluid pore pressure.定义初始孔隙流压力36. UPRESS: Specify prescribed equivalent pressure stress conditions.指定规定的换算压应力条件37. UPSD: Define the frequency dependence for random response loading.对随即响应荷载定义频率相关38. URDFIL: Read the results file.读取结果文件39. USDFLD: Redefine field variables at a material point.再一次定义材料场变量40.UTEMP: Specify prescribed temperatures.指定规定的温度41. UTRACLOAD: Specify nonuniform traction loads.指定非均匀牵引荷载42. UTRS: Define a reduced time shift function for a viscoelastic material.对粘弹性材料定义一个简化的时间转换函数43. UVARM: Generate element output.形成单元输出44. UWAVE: Define wave kinematics for an ABAQUS/Aqua analysis.对ABAQUS/AQUA分析定义波浪运动45.VOIDRI: Define initial void ratios.定义初始孔隙比ABAQUS/Explicit subroutines1. VDLOAD: Specify nonuniform distributed loads.指定非均匀的分布荷载2. VFRIC: Define frictional behavior for contact surfaces.对接触面定义摩擦3. VUINTER: Define the interaction between contact surfaces.在接触面之间定义相互作用4. VUMAT: Define material behavior.定义材料特性。
