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博览达科技致力于CAE技术的引进、生根、提升;培训是技术引进和技术提升很重要的一个环节。公司提供定期和不定期的CAE应用培训和领域专家培训。

 

博览达科技提供的CAE应用培训包括 疲劳寿命预测分析技术培训、多体动力学技术培训有限元技术培训、摩托车培训课程101、涡轮机械寿命分析、飞机发动机设计培训 等等。详细课程介绍如下面所示:

培训课程内容浏览
课程名称:疲劳寿命预测分析技术培训
培训时间:2天
培训大纲:

疲劳基础知识
  1、疲劳设计方法
  2、金属材料的疲劳理论基础
  3、金属疲劳的循环材料特性
  4、影响疲劳寿命的关键因素
  5、疲劳载荷的种类
  6、累积损伤理论
  7、恒幅载荷试验及寿命估算
  8、随机载荷的寿命评价方法
  9、复合载荷的寿命评价方法
  10、等寿命图与疲劳安全系数
  11、雨流计数方法
P-EF基础
  1、P-EF功能概要
  2、P-EF疲劳耐久分析流程
  3、P-EF算法
基于FEA的P-EF疲劳分析
  1、FEA坐标系简介
  2、FEA的应力/应变张量与疲劳评价应力/应变的转换
  3、基于FEA结果的P-EF分析方法
  4、Femap求解设置
基于应变片测试结果的P-EF疲劳耐久评价
  1、动态应变的类型
  2、基于测量动应变的P-EF耐久性分析
  3、测量应变与疲劳计算应变的关系
  4、P-EF分析的动应变数据格式
案例分析
  1、发动机曲轴寿命分析
考试/Q&A
  1、考试
  2、Q&A

课程名称:多体动力学技术培训
培训时间:3天
培训地点:上海市长宁区仙霞路350号科创楼229室培训室
2013年培训日期:
第一期:1月9日、10日、11日(礼拜三~礼拜五)
第二期:3月6日、7日、8日(礼拜三~礼拜五)
第三期:4月10日、11日、12日(礼拜三~礼拜五)
第四期:5月8日、9日、10日(礼拜三~礼拜五)
第五期:6月5日、6日、7日(礼拜三~礼拜五)
更多详情,敬请关注多体动力学技术培训
课程名称:Motorcycle 101 Course Syllabus 摩托车培训课程101
培训内容:Motorcycle Design and Technology 摩托车设计及技术培训
培训时间:3天
讲师:Dr. Timothy G. Hunter(美国哈雷摩托车(Harley-Davidson)前制造和装配部总监(Director)兼总师(Chief Engineer)、前结构设计和分析部总监兼总师)
培训方式:
MC101网上webinar培训(12堂课,每堂2小时含Q&A),人员不限,包括最多20份教材,授课日期协商订定。
MC101客户处现地培训(4天),人员不限,包括最多20份教材,授课日期协商订定。
MC101博览达上海培训(4天),个别报名,一人一份教材,至少12人报名才开班
培训费用请咨询:021-5240 0270 Ext.810
培训大纲浏览:

 1     Requirements

 1.1     Looking down the road or in the rear view mirror?

http://blog.guykawasaki.com/2006/01/the_art_of_inno.html#axzz1krAn9GcW

 1.2     The importance of setting requirements, making compromises and sticking to a product plan.

 1.3     Translating product requirements to system and component level requirements and specifications.

 1.4     Selling your concept

http://blog.guykawasaki.com/2006/01/lessons_from_st.html#axzz1krAn9GcW

 

 2     Design for Performance

 2.1     Understanding Vehicle performance requirements

 2.1.1       Straightline Motion: Chapter 3, 5

 2.1.2       Cornering: Chapter 4

 2.1.3       Force Transmittal: Chapter 6

 2.1.4       Motorcycle Attitude: Chapter 7

 2.1.5       Tires ant the Ground: Chapter 8

 2.1.6       Motorcycle Dynamics: Chapter 9

 2.2       Design tools

 2.2.1         Requirements and Process

 2.2.2         Importance of CAD

 2.2.3         Importance of Styling

 2.2.4         Importance of Analysis and Test

 2.2.5         Importance of Optimization

 2.3         Understanding key Systems

 2.3.1           Powertrain: Chapter 11

 2.3.2           Frame: Chapter 12

 2.3.3           Suspension: Chapter 13, 14, 15

 3     Design for Manufacturability

 3.1           Your processes

 3.1.1           What are they?

 3.1.2           What should they be?

 3.2           Translating process requirements into design requirements

 3.3           Dimensional management for more efficient processes and greater design freedom

 4     Design for Durability

 4.1           Know your duty cycle

 4.2           Know your materials and manufacturing processes

 4.3           Stress / Strain and fatigue

 4.4           The importance of bolted joint design

 5     Design for Service

 5.1           How is the product used?

 5.2           Easy assembly / disassembly

 5.3           Need to recycle?

 6     Product Development Organization and Skills

 6.1           Understanding the core skills for efficient design

 6.2           Understanding your product complexity

 6.3           Matching an Organizational model to your company

 6.3.1           Where are the "real" decisions made?

 6.3.2           Do you have a learning organization?

 6.3.3           Understanding the culture of the work place

 6.3.4           Understanding the human condition

 6.3.5           Common engineering management models

 6.3.5.1           End Product focused

 6.3.5.2           System focused

 6.3.5.3           Pros / Cons

 6.3.5.4           Common mistakes

 

 

课程名称:turbo-machinery life analysis lecture 涡轮机械寿命分析
培训时间:3天
讲师:姚仁福博士(Dr. Jenfu Yau)
培训方式和费用请咨询:021-5240 0270 Ext.810
培训大纲浏览:

Objectives of Lecture

  • Understand the failure modes and mechanisms frequently observed in turbo-machinery
  • Gain knowledge, insight, and ability to predict life of gas turbine structural components
  • Understand the significance of failure prediction as part of the design process.

 

Outline of Lecture

Overview of Turbo-Machinery Life Design

  • Life and reliability goals in turbo-machinery design
  • Time based and cycle based life predictions
  • General processes in designing for durability

 

Turbo-Machinery Critical Features

  • Failure modes/mechanism in fan/compressor
  • Failure modes/mechanism in combustor
  • Failure modes/mechanism in turbine vane/nozzle
  • Failure modes/mechanism in turbine blade/bucket
  • Failure modes/mechanism in compressor and turbine rotors

 

Fatigue Crack Initiation Life Prediction

  • Fatigue life behavior
  • Stress-life vs strain-life relationship
  • Mean stress effects
  • Miner's rule - cumulative damage
  • HCF vs LCF
  • Fatigue strength of notched component
  • Thermo-mechanical fatigue
  • Sustained period low cycle fatigue (SPLCF)
  • Consideration of fatigue in turbo-machinery design

 

Fatigue Crack Propagation Life Prediction

  • Linear elastic fracture mechanics (LEFM)
  • Basic Modes of Fracture
  • State of stress and displacements near crack tip
  • Stress intensity factor (SIF)
  • Calculation of SIF using principle of superposition
  • Finite body effects on SIF
  • Calculation of SIF using finite element method
  • Fracture mechanics approach to crack growth analysis
  • Effects of mean stress on crack growth behavior
  • Load control vs strain control crack growth
  • Plastic zone at crack tip
  • Plane stress vs plane strain fracture
  • Fracture toughness
  • Consideration of fracture mechanics in turbo-machinery design

 

Creep Life Prediction

  • Creep growth rates
  • Creep strain limits
  • OSD equation
  • Lason-Miller parameter
  • Consideration of creep in turbo-machinery design

 

Life Prediction for other failure modes

  • Oxidation
  • Corrosion
  • TBC spallation
课程名称:涡轮风扇发动机基础培训 Turbofan Orientation
讲师:博览达/上海交通大学 专家团队
培训时间:4天
培训方式和费用请咨询:021-5240 0270 Ext.810
培训内容浏览:

课程列表
Introduction (1) - Overview
Introduction (2) - Engine/Aircraft System Integration
Introduction (3) - Engine/Aircraft Selection
Introduction (4) - Cycle Selection
Gas Turbine Fundamental
Engine Mechanical Design Fundamental
Engine Maintenance & Service - Introduction

课程名称:高通道风扇模型 High Bypass Fan Module
讲师:博览达/上海交通大学 专家团队
培训时间:5天
培训方式和费用请咨询:021-5240 0270 Ext.810
培训内容浏览:

课程列表
Aerodynamics - Overview
Aerodynamics - Airfoil Design and Optimization
Mech & Aeromechanics Design Overview
Rotor Design Overview
Analysis Overview

课程名称:飞机发动机验证认证技术 Exp. Verification and Certification
讲师:博览达/上海交通大学 专家团队
培训时间:4天
培训方式和费用请咨询:021-5240 0270 Ext.810
培训内容浏览:

课程列表
Introduction of FAR Certification
Certification by Analysis
Certification by Bench and Component Test
Fan Aero Rig Test
Engine Certification Tests - Overview

课程名称:气动弹性 Aeroelasticity
讲师:上博览达/上海交通大学 专家团队
培训时间:4天
培训方式和费用请咨询:021-5240 0270 Ext.810
培训内容浏览:

课程列表
Aeromechanics - Overview
System Aeromechanics 
Aerodynamics and Aeromechanics Coupling

课程名称:飞机发动机材料与制造 Material and Manufacture
讲师:博览达/上海交通大学 专家团队
培训时间:5天
培训方式和费用请咨询:021-5240 0270 Ext.810
培训内容浏览:

课程列表
Ti Material - Overview
Manufacture (1) - Ti Components
Manufacture (2) - TFW Technology
Manufacture (3) - Surface Finishing
Manufacture (4) - General
Field Trip to WTB

课程名称:飞机发动机的系统工程 System Engineering
讲师:博览达/上海交通大学 专家团队
培训时间:4天
培训方式和费用请咨询:021-5240 0270 Ext.810
培训内容浏览:

课程列表
System Engineering - Introduction
Engine Architecture & Structure Design
Rotor Dynamics
Operability
Acoustics
Transient Cycle/Performance
Control 
Inlet and Nacelle

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