midas Gen 2014升级内容

MIDAS/gen操作流程介绍操作流程L在MIDAS中新建一个模型：2.将CAD单线模型转换成DXF格式导入MIDAS（midm不识别曲线模型，并注意尺寸数问题）；3.定义材料及截面属性；4.指定支座节点形式（边界条件）：5.检查结构数据；6.定义荷载工况及荷载组合（DL；LL；WL；TS；TL；RL；SL等）7.荷载加载（坐标轴选取：整体坐标轴且是否选取投影面积；局部坐标轴）；8杆件释放（释放梁端约束）；9.前处理阶段运行；10.查看模态、变形及内力，并判断模型是否准确（如果对模型并不确保准确，可在荷载加载阶段只添加重力荷载，进行简单运行，初步检查模型是否正确）；1L后处理阶段试算:12.根据试算结果，查看应力比及设计细节，调整覆盖项参数（再修改程序默认定义不准确的杆件类型以及杆件长细比）。

王I 导入模型开始就要设置好所需单位噢,荷,周L ；p f =自“娟孟J的隔-■独书才加期出-明荏分G 数糖q萌问我才析算俺h 军法敲忻处据l 水北照才析的is国丰玷性分析硼：i 融工mr 叫忻我造鼓跳2曲卜%直调w三或-m 命令信担心汗福面7捕捉类图标/看这里看这里看这里显不类图标所有功能应有尽有，只有你想不到没有他做不到其他软件一样有一些快捷键,比如F2只显示选中单元、F5前处理阶段运行、F8单元验算、F12删除多余杆件等。

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MIDAS/Gen 中各国及地区设计规范一. 钢结构(共17个)1. AIK-ASD83Architectural Institute of Korea, Allowable Stress Design, 19832. AIJ-ASD02Architectural Institute of Japan, Allowable Stress Design, 20023. AISC-ASD89American Institute of Steel Construction, Allowable Stress Design:Part 5. Specifications and Codes, 19894. KSCE-ASD96Korean society of Civil Engineers, Allowable Stress Design, 19965. AIK-LSD97Architectural Institute of Korea, Limit States Design, 19976. AISC-LRFD93American Institute of Steel Construction, Load & Resistance Factor Design Part 6. Specifications and Codes, 19937. AISC-LRFD2KAmerican Institute of Steel Construction, Load & Resistance Factor Design Part 6. Specifications and Codes, 20008. BS5950-90British Standard, Structural use of steelwork in building:Part 1. Code of practice for design in simple and continuous construction9. Eurocode3ENV 1993-1-1 Eurocode3, Design of steel structures:Part 1.1 General Rules and Rules for Building10. AIK-CFSD98Architectural Institute of Korea, Cold-Formed Steel Design, 199811. AISI-CFSD86American Iron and Steel Institute, Cold-Formed Steel Design, 198612. KEPCO97-1111Korea Electric Power COmpany, Allowable Stress Design, 199713. GBJ17-88Guo jia Biao zhun (National standard of the people’s republic of China),Code for design of steel structures, 198814. CSA-S16-01Canadian Standards Association, Limit States Design of Steel Structures, 200115. IS:800-1984Indian Standard, Code of Practice for General Construction in Steel (Second Revision), 198416. TWN-ASD90Taiwan, 鋼構造建築物鋼結構設計技術規範(二) 鋼結構極限設計法規範及解說, 199017. TWN-LSD90Taiwan, 鋼構造建築物鋼結構設計技術規範(一) 鋼結構容許應力設計法規範及解說, 199018. GB50017-03Guo jia Biao zhun (National standard of the people’s republic of China),Code for design of steel structures, 2003二. 钢筋混凝土(共16个)1. ACI318-89American Concrete Institute, Building Code Requirements for Structural Concrete(318-89) and Commentary(318R-89), 1989Reported by ACI Committee 3182. ACI318-95American Concrete Institute, Building Code Requirements for Structural Concrete(318-95) and Commentary(318R-95), 1995Reported by ACI Committee 3183. ACI318-99American Concrete Institute, Building Code Requirements for Structural Concrete(318-99) and Commentary(318R-99), 1999Reported by ACI Committee 3184. ACI318-02American Concrete Institute, Building Code Requirements for Structural Concrete(318-02) and Commentary(318R-02), 2002Reported by ACI Committee 3185. AIK-USD94Architectural Institute of Korea, Ultimate Strength Design, 19946. KSCE-USD96Korean society of Civil Engineers, Ultimate Strength Design, 19967. KCI-USD99Korean Concrete Institute, Ultimate Strength Design, 19998. AIK-WSD2KArchitectural Institute of Korea, Working Stress Design, 20009. AIJ-WSD99Architectural Institute of Japan, Working Stress Design, 199910. BS8110-97British Standard, Structural use of concrete:Part 1. Code of practice for design and construction11. Eurocode2ENV 1992-1-1 Eurocode2, Design of concrete structures:Part 1. General Rules and Rules for Building12. GB50010-02Guo jia Biao zhun (National standard of the people’s republic of China),Code for design of concrete structures, 200213. CSA-A23.3-94Canadian Standards Association, Design of Concrete Structures, 199414. IS456:2000Indian Standard, Plain and Reinforced Concrete – Code of Practice (Fourth Revision), 200015. TWN-USD92Taiwan, 結構混疑土設計規範, 199216. KCI-USD03Korean Concrete Institute, Ultimate Strength Design, 2003钢骨混凝土(共7个)1. AIK-SRC2KArchitectural Institute of Korea, Allowable Stress Design, 20002. KSSC-CFT2KKorean Society of Steel Construction, Concrete Filled Tube, 20003. SSRC79Structural Stability Research Council, A Specification for the Design of Steel-Concrete Composite Columns, 19794. AIJ-SRC01Architectural Institute of Japan, Allowable Stress Design, 20015. JGJ138-01Jian zhu Gong ye Jian zhu biao zhun,Technical specification for steel reinforced concrete composite structures, 20016. CECS28-90China association for Engineering Construction Standardization,Specification for design and construction of concrete-filled steel tubular structures, 19907. TWN-SRC92Taiwan, 鋼骨鋼筋混疑土構造設計參考規範與解說, 1992。