Mark Zeinstra
Discipline Lead Engineer (Mechanical) at NTS-Group- Claim this Profile
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Dutch Native or bilingual proficiency
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English Professional working proficiency
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German Professional working proficiency
Topline Score
Bio
Credentials
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PSE certification: Core FEA (Standard Level) + Thermo-Mechanical Behaviour (Standard Level)
NAFEMSJun, 2020- Oct, 2024
Experience
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NTS-Group
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Netherlands
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Industrial Machinery Manufacturing
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400 - 500 Employee
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Discipline Lead Engineer (Mechanical)
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Jan 2021 - Present
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Lead Mechanical Engineer
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Feb 2019 - Dec 2020
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VDL Energy Systems
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Hengelo
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Manager Technology & Innovation
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Nov 2018 - Jan 2019
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Siemens
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Germany
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Automation Machinery Manufacturing
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700 & Above Employee
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Team Lead Design Automation
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Aug 2016 - Nov 2018
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Manager Technology and Innovation
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Feb 2016 - Nov 2018
In country manager for the Technology and Innovation department at Siemens Nederland N.V. region East for the Service business unit.
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Manager Product Design
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Jul 2014 - Aug 2016
The Product Design team is responsible for creating Compressor designs used in the Oil & Gas business. Siemens NX CAD is used for creating the models and corresponding 2D drawings. The created models are stored and released for production in TeamCenter. Finally, the Engineer-to-Order software Rulestream is used for creating compressor designs automatically.
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Project Engineer
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Sep 2010 - Jun 2014
I am working on a knowledge based engineering tool in the Rulestream software in combination with NX CAD. The tool is part of the design automation of standard compressor parts (e.g. impellers, diaphragms, etc.). Goal is to reduce engineering time and improve product quality.
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Traineeship
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Sep 2009 - Aug 2010
Gain general compressor knowledge,
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University of Twente
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Netherlands
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Research Services
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700 & Above Employee
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Graduation
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Sep 2008 - Aug 2009
A Finite Element model is developed to simulate the deformation of a single ply of protective fabric during impact, while supported by a foam backing material. The model incorporates in-plane shear behaviour, bending behaviour and inter-ply friction. The FE model can be used to optimise the material properties in order to maximise the protective properties of a ply. A Finite Element model is developed to simulate the deformation of a single ply of protective fabric during impact, while supported by a foam backing material. The model incorporates in-plane shear behaviour, bending behaviour and inter-ply friction. The FE model can be used to optimise the material properties in order to maximise the protective properties of a ply.
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Philips
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Netherlands
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Hospitals and Health Care
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700 & Above Employee
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Junior Development Engineer
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Jul 2005 - Jul 2006
Performed acoustical measurements on domestic appliances. Designed prototypes with the use of Unigraphics NX2. Performed acoustical measurements on domestic appliances. Designed prototypes with the use of Unigraphics NX2.
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Education
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University of Twente
Msc, Mechanical Engineering / Production Technology -
Saxion University of Applied Sciences
Bachelor of science in mechanical engineering, Engineering -
University of Twente
Propedeuse, Civil Engineering