OPPOCAE工程师
任职要求
1.理论力学、计算力学、结构工程、物理、数学、材料、计算机及软件等相关专业,了解力学物理相关知识、对有限元等仿真方法等有一定理解或经验; 2.熟悉常用仿真工具其中之一,不限于如HYPERWORKS等; 3.愿意长期从事理论探索、逻辑思维能力强、善于进行数模研究; …
工作职责
在这里,你将获得挑战性的基础研究和前沿的虚拟设计;你将接触行业最顶尖的技术应用,通过数字化驱动产品设计;你将拥有宽松的工作关系和前景广阔的发展方向! 具体工作方向包括: 1.掌握有限元等仿真方法,运用数值方法优化产品设计; 2.研究业界前沿的仿真技术,对工程问题进行数据挖掘并建立数字化模型; 3.负责仿真精度和效率提升,从仿真算法、力学本构、材料实验、软件程序开发等多方向实现技术突破; 4.新型仿真能力拓展,如多物理场仿真、可靠性仿真等。
1、负责机器人关节、灵巧手等执行机构强度、疲劳仿真及优化; 2、负责机器人子结构模态、动刚度、频响仿真及优化; 3、负责机器人关节、整机轻量化; 4、负责机器人耐久载荷谱、振动载荷谱解析及制定; 5、负责仿真分析流程、规范以及技术开发能力建设。
THE ROLE As an Analysis Engineer within our Analysis Team, you will play a critical role in the development of Tesla next generation products. Tesla is synonymous with industry leading crash safety performance and in this role, you will be responsible for analyzing and optimizing this performance with revolutionary vehicle designs. You will be brilliant both technically as an individual, and as an active member in a diverse and challenging cross-functional team environment. You will work with Vehicle Engineering teams to analyze the performance of future vehicle designs and with Test Engineering teams to develop tests, correlate simulation models, and improve the predictive capability of Analysis Engineering at Tesla. RESPONSIBILITIES • Construct CAE models and perform simulations related to vehicle crash structure performance, occupant safety, pedestrian protection, and HV systems on a vehicle level. • Verify the results from the simulations comply with multiple various crash safety requirements. • Optimize body, closure, battery, and other sub-systems based on your analysis results to improve the crashworthiness of design vehicle architectures. • Apply your knowledge of Finite Element Analysis, Applied Solid Mechanics, and Material Science in a product development environment. • Get involved in methodology development to improve CAE modelling efficiency. • Basic level of working ability with scripting in Python is a plus.
THE ROLE As a CAE analysis engineer, you are expected to be innovative and will play a critical role in the core development team for Tesla next generation products. You will analyze and optimize our revolutionary vehicle designs with your expertise; contribute to defining the best product in the industry along with a group of talented engineers. You will be brilliant both technically as an individual, and as an active member in a diverse and challenging cross-functional team environment. RESPONSIBILITIES • Develop strength and durability FE models for analysis for our revolutionary vehicle architectures in collaboration with a small team of multi-disciplinary engineers. • Perform strength and fatigue analysis of BIW, closure, exterior and interior subsystems. • Develop new CAE methods and process for solving engineering problems unique to Tesla’s EV architectures. • Challenge established traditional CAE methods and process to improve efficiency and accuracy. • Collaboratively work with test engineers to create specifications for data acquisition and virtual loads prediction. Carry out CAE to test correlation to improve modelling procedure and work on countermeasures. • Support world-class engineering teams with design direction based on your analyses and engineering judgement. • Provide input in the creation of component specification, component DFMEA, and other technical design documents where analysis plays a pivotal role.
The Role As a NVH CAE Engineer with our NVH team you will play a critical role in the design and development of Tesla s industry-leading products. You will analyze, optimize, and revolutionize electric vehicle designs. You will work with fellow NVH engineers and other engineering teams to solve the toughest challenges in the industry and deliver world-class performance. Tesla is looking only for the best and most talented. Accelerate your career. Accelerate the world’s transition to sustainable energy and transport. Responsibilities • Developing FE models for analysis and optimization of revolutionary vehicle architectures in collaboration with a small team of multi-disciplinary engineers • Performing modal, point mobility, vibration and acoustic transfer function analysis during the design and development process to achieve world-class vehicle attribute targets • Performing full vehicle NVH analysis (in-cabin vibration and acoustic predictions) • Managing precise model versioning and alignment with CAD enabling speed and efficiency in iteration • Supporting world-class engineering teams with design direction based on your analyses • Performing analysis for feasibility for manufacturing, assembly and service processes • Providing input in the creation of component specification, component DFMEA, and other technical design documents where analysis plays a pivotal role