深圳摩方亚太销售事业部:
招聘销售工程师若干,工作地点:深圳、无锡、北京、重庆
条件要求:
1、全日制本科及以上学历,机械、光学、半导体或材料相关专业;
2、理工科背景或工程师经验,具备快速熟悉新产品技术要点能力;
3、拥有精密加工,微加工,DLP,SLA等3D打印行业销售经验者优先;
4、工作积极主动,有较强的逻辑思维能力,善于沟通,适应频繁出差(30%以上出差工作量)。
深圳摩方工程部:
招聘材料工程师若干,工作地点:深圳
条件要求:
1、统招全日制硕士及以上学历,高分子、陶瓷材料相关专业;
2、精通有机化学和高分子物理/化学;
3、熟悉材料力学性能表征,化学测试仪器;
4、熟悉3D打印技术,了解3D打印工艺和相关应用方向优先。
招聘机械工程师若干,工作地点:深圳
条件要求:
1、统招本科及以上学历机械工程、机电一体化等相关专业;
2、熟悉精密设备模态仿真,精度控制,标准化设计,机械加工及应用等;
3、熟练使用SOLIDWORKS、BOM,熟悉常用机械装置的基本原理,结构,技术参数及安装调试方法;
4、有较强的分析问题和解决问题能力。
招聘3D打印工程师若干,工作地点:深圳
条件要求:
1、统招本科及以上学历,化学、高分子材料等相关专业优先;
2、具有从事3D打印设备材料成型研究、工艺摸索、或实验分析等经验;
3、具有良好的学习能力、动手能力、观察与分析能力,具有良好的实验记录习惯;
4、具有系统性的思维方式,科学系统的实验方法论。
招聘售后工程师若干,工作地点:深圳
条件要求:
1、统招本科及以上学历机械工程、机电一体化等相关专业;
2、有3D打印行业设备相关工作经验优先考虑;
3、对3D建模有一定的基础;
4、团队意识强,沟通协调能力强,责任心强,善于独立思考解决问题;
5、能够胜任适应一定量的出差。
联系方式:凌先生:18127099060(微信同号)
简历投递通道:hr@bmftec.cn或者前程无忧、猎聘网搜索相关岗位直接投递
公司简介:
深圳摩方材料科技有限公司(BMF Material Technology Inc)于2016年在中国深圳成立,秉承将3D打印转变为真正的精密快速成型及直接生产制造的理念,nanoArch®系列3D打印系统为精密增材制造量身定做。全球领先的超高打印精度(2μm/10μm/25μm),高精密的加工公差控制能力(±10μm/ ±25μm/±50μm),配置韧性树脂、硬性树脂、耐高温树脂、生物树脂等打印材料,使得nanoArch®3D打印系统可直接成型精密塑料结构件和功能器件,无需再经过抛光、打磨、喷涂等后处理工艺。nanoArch®3D打印系统可为客户提供免模具的超高精度快速打样验证,小批量的精密塑料零件加工。
nanoArch®系列3D打印设备采用面投影微立体光刻(PμSL: Projection Micro Stereolithog-raphy)技术,是目前行业极少能实现超高打印精度、高公差加工能力的3D打印系统。PμSL技术使用高精度紫外光刻投影系统,将需打印模型分层投影至树脂液面,快速微立体成型,从数字模型直接加工三维复杂工业样件。该技术具有成型效率高、加工成本低等突出优势,被认为是目前最具有前景的微尺度加工技术之一。作为高精密增材制造领域的领军企业,摩方公司已和众多全球知名企业开展业务合作,包括GE医疗、美国强生、日本电装、安费诺、泰科电子等,产品广泛应用在连接器、精密医疗器械、消费电子、精密加工等行业。
作为微纳3D打印的先行者和领导者,在三维复杂结构微加工领域,摩方团队拥有超过二十年的科研及工程实践经验。针对客户在新产品开发中可能出现的工艺和材料难题,我们将持续提供简易高效的技术支持方案。摩方自主研发的3D打印系统也已被清华大学、北京大学、浙江大学、北航、中石油、中科院、英国诺丁汉、德国德累斯顿理工、新加坡南洋理工等众多全球顶级高校和科研机构所使用。
BMF Material Technology Inc was found in Shenzhen, China in 2016. Adhering to the concept of transforming 3D printing into real precision rapid prototyping and direct manufacturing, nanoArch series 3D printing system is customized for precision additive manufacturing. The world's leading ultra-high printing accuracy(2μm /10μm/ 25μm), high precision machining tolerance control capability(±5μm/ ±25μm/ ±50μm), equipped with tough, rigid, thermal resistant, BIO compatible resin and other printing materials, it enables nanoArch 3D printing system to directly form precision plastic structures and functional devices without polishing, grinding, spraying and other post-processing processes. nanoArch 3D printing system can provide customers with mold free ultra-high precision rapid prototyping verification and small batch of precision plastic parts manufacturing.
nanoArch series 3D printing system is based on PμSL (Projection Micro-Stereolithography) technology, which is designed for production of high resolution, highly precise parts for prototyping and short run production. Based on the principles of stereolithography, this technique allows for rapid photopolymerization of an entire layer of resin with a flash of UV light at micro-scale resolution allowing us to achieve ultra-high accuracy precision and resolution that cannot be attained with other technologies. This technology has the advantages of high forming efficiency and low manufacturing cost. It is considered to be one of the most promising micro-scale manufacturing technologies at present. As a leading enterprise in the field of high-precision additive manufacturing, BMF has carried out business cooperation with many well-known global enterprises, including GE Medical, Johnson & Johnson, Japan Denso, Amphenol, TE Connectivity etc. Products are widely used in connectors, precision medical devices, consumer electronics, precision manufacturing and other industries.
As a pioneer in ultra-high resolution micro 3D printing area, BMF has more than 20 years of scientific research and engineering experiences. We will continuously provide simple and efficient technical solutions to our customers based on the possible manufacture and material problems in their new product development. Our 3D printing system has also been purchased by Tsinghua University, Peking University, Zhejiang University, Beihang University, CNPC, Chinese Academy of Sciences, University of Nottingham, Technical University of Dresden, Nanyang Technological University and many other top universities and scientific research institutions in the world.
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