Dear imechanica friends, Apple Display Technology Investigation team has an internship opportunity now. The following is the job description and qualification requirements. Please feel free to contact me if you are interested. My email is zhenzhang@apple.com. Job description for Internship as a Flexible Display Technologist Job Summary: In this position, you will play a critical role in developing and assessing new display technologies in for possible use in Apple products, crafting new designs and intellectual property for Apple, and interacting with multiple partners across the company and with technology and product suppliers to Apple. Key Qualifications: — Good knowledge and experience in mechanical design, and familiar with MCAD tools, such as NX. — Good background on mechanics of materials. — Good knowledge in FEA fundamentals and experience in software Abaqus and/or Ansys. — Good at coding, e.g. Python, Matlab, etc. — Some knowledge on ML/AI is preferred. — Excellent verbal and written interpersonal skills. Education: Preferred requirements: Ph.D candidate in mechanical engineering, materials science, or a closely-allied field.
Job Summary:The Artificial Organs Laboratory at the Department of Surgery of the University of Maryland seeks highly motivated individuals for two post-doctoral research associate positions in the following areas: blood compatibility and design/development of blood contacting medical devices. The lab is conducting applied cardiovascular research, engaged in research and development of blood-contacting artificial organs and biologic responses to these devices. The research activities are carried within a multidisciplinary research and design team consisting of clinicians, surgeons, scientists, engineers, residents, and students. The applicants are expected to have a PhD in bioengineering, biomedical engineering, mechanical engineering, or relevant disciplines. The ideal candidates should have experience in the areas of medical devices, biomechanics, blood cell mechanics, mathematical modeling, and computational/numerical methods. Hands-on experience with instruments and devices, and engineering experimental skills would be valuable. Knowledge of CAD software is desirable. Applicants should send a letter containing a brief research statement of interest, a curriculum vita and complete contact information for three references to Dr. Dong Han at the address below. The University of Maryland, Baltimore is an Equal Opportunity, Affirmative Action employer. Minorities, women, veterans, and individuals with disabilities are encouraged to apply.dhan@som.umaryland.edu
If you're working with image data and CAD, then I recommend checking out this upcoming webinar on linking Simpleware software and SOLIDWORKS on October 21st.
Details on how to register are here.
Best,
Philippe
You are welcome to join this webinar on implant selection and positioning in Simpleware software. The 15-minute webinar shows some of the recent developments we've made in selecting and positioning CAD implants within computed tomography (CT) image data.
The webinar will look at the case of a CT torso scan to discuss different measurement techniques in Simpleware ScanIP, and how to create orthopedic models for 3D printing, Finite Element Analysis, and CAD.
Join us for this free webinar on the latest features and improvements to Simpleware software's 3D image data visualization, analysis and model generation capabilities.
We are looking for a C++ or CSharp Programmer and a post-doctoral fellow to couple our in-house Isogeometric BEM/FEM and Collocation approach to Rhino3D. Funding is available for 12 months of post-doc as well as programming time for a GUI and interfacing with Rhino3D. Freelance programmers are welcome to apply. Knowledge of elasticity, linear algebra and BEM acceleration are a plus.
Contact me for more information including your IGA experience, BEM/FEM experience and background in mechanics.
Best wishes!
Stéphane
— Stéphane BORDASMobile +352 621 131 048http://www.legato-team.euhttps://scholar.google.be/citations?hl=en&user=... of Computational MechanicsSpecial Advisor to the Rectorate on Scientific ComputingUniversity of Luxembourg---------------------------------------------Recent papers 2017 What makes Data Science different? http://hdl.handle.net/10993/30235 Error control in deep brain stimulation simulationshttp://hdl.handle.net/10993/30937 Energy-minimal crack growth http://hdl.handle.net/10993/29414 Uncertainty Quantification in biomechanics http://hdl.handle.net/10993/28618 Real-time error estimation for needle insertionhttp://hdl.handle.net/10993/28624 Bayesian parameter identification in mechanicshttp://orbilu.uni.lu/bitstream/10993/29561/3/template.pdfhttp://orbilu.u...Real-time Error Control for Surgical Simulation http://dx.doi.org/10.1109/TBME.2017.2695587
Shape optimization directly from CAD: An isogeometric boundary element a...http://dx.doi.org/10.1016/j.cma.2016.11.012
Linear smoothed polygonal and polyhedral finite elements http://dx.doi.org/10.1002/nme.5324
Register: Wednesday, May 24th, 2017 - 9:00 am PDT (West Coast) / 12:00 pm EDT (East Coast) / 5:00 pm BST (UK) / 6:00 pm CEST (Europe)
Register: Thursday, May 25th, 2017 - 8:00 am BST (UK) / 9:00 am CEST (Europe) / 12:30 pm IST (India) / 5:00 pm AEST (East Australia)
Attend this webinar focused on the +NURBS module in the Simpleware software suite. Learn how to generate high quality and watertight NURBS models and what you can do to make sure your segmentation is ready for NURBS patch fitting.
Topics covered include:
This webinar is aimed at existing and new users of the Simpleware software suite, with opportunities to ask questions about the +NURBS module.
(re-arranged from January 14th and 21st)
We're running two webinars in February on the latest additions to our software ScanIP's 3D image processing, visualisation and model generation capabilities. The webinars are ideal for existing users and those wanting to learn more about creating models from 3D images.
Introduction to the new ScanIP Animations Tool on February 11th (8am/5pm GMT)
The animations tool in ScanIP allows you to easily visualise and explore image data, and includes 'fly-through' and video export options. This webinar will detail the different options available within the tool for interacting with scanned images.
To Register: http://simpleware.com/news-and-events/events/webinars/webinar-animations.html
Introduction to the new Physics Modules +SOLID, +FLOW and +LAPLACE on February 18th (8am/5pm GMT)
The Physics modules enable the effective material properties of scanned samples to be calculated using FE-based homogenisation techniques: +SOLID calculates effective linear elastic properties, +FLOW absolute permeability, and +LAPLACE electrical/thermal/molecular properties. The webinar will cover how the modules tie into ScanIP and how the homogenisation techniques make it easier to analyse complex image data.
To Register: http://simpleware.com/news-and-events/events/webinars/webinar-physics-modules.html
8am-9am GMT or 5pm-6pm GMT
REGISTER: https://attendee.gotowebinar.com/rt/5038692716921477889
The latest release of Simpleware’s 3D image processing and model generation software includes new features designed to enhance visualisation, analysis and segmentation of 3D image data. Features include a particles analyser, centreline tools and new physics modules for calculating effective material properties using homogenisation techniques.
Learn about the new features and updates that have been added to version 7.0, including:
• New animation tools
• Easier segmentation of particles with watershed tool
• New centrelines editor
• Boundary layer meshing for FE models
• New Abaqus CFD export option
• Orientation overlays for medical applications
• ROI-defined boundary straightening
• Mesh snapshots
• Improved transparency visualisation
• Improved slice planes
• ROI creation from a mask’s shape
You will also discover the new add-on physics modules: +SOLID, +FLOW, and +LAPLACE.
Version 7.0 significantly extends the software’s ability to bridge scan data with CAD, CAE and 3D printing, reinforcing Simpleware’s leadership in 3D image-based modelling. The new release also maintains the software’s easy-to-use interface and scripting capabilities, and is fully supported by expert engineers and comprehensive documentation.
We're delighted to announce the Version 7.0 release of our 3D image processing, analysis and model generation software. The release comes with a wide range of new features including:
New Animations - generate animations from within the ScanIP interface - explore your data and create videos to communicate work to colleagues, with options for 'fly-throughs' available.
New Physics Modules - new add-on modules +SOLID, +FLOW and +LAPLACE enable you to calculate effective material properties from image data using homogenisation techniques. Use quick semi-analytical estimates or simulations in a built-in FE solver to compute properties. +SOLID calculates elastostatic properties, +FLOW absolute permeability, and +LAPLACE electrical conductivity/permittivity, thermal conductivity, and molecular diffusivity.
New Centreline Tools - analyse the connectivity of your data with a new centrelines feature - measure centrelines in 3D and export statistics for analysis.
New Watershed Segmentation - separate and group particles using this processing tool. Ideal for working with nano and micro-scale data.
Other new features include: boundary layer meshing for FE models, new ABAQUS CFD export options, medical orientation overlays, ROI-defined boundary straightening, mesh snapshots, improved transparency visualisation and slice planes, ROI creation from a mask's shape.
Learn more: http://simpleware.com/news-and-events/news/version-7.0.html
Try the new features with a free 30-day trial: http://simpleware.com/software/trial/
Webinar
Date: April 24, 2012; Time: 12:00 - 1:00 pm (EDT)
Overview: This talk will present how MEMS CAD
tools coupled with standard analog and digital design tools may be used
for the co-simulation and modeling of MEMS devices, their associated
electronics and packaging in commercial MEMS systems. Examples will be
given of important co-design issues such as how to simulate packaging
effects on MEMS device performance, how to co-simulate electronics and
MEMS to calculate system timing, and how to model and evaluate the
thermal, mechanical and electrical performance of new packaging concepts
such as system in package. The talk will also discuss design tools and
strategies for those system designers wishing to utilize third party or
off the shelf MEMS sub-systems.
The webinar is Free.
For registration, please go to:
http://lnf.umich.edu/nnin-at-michigan/index.php/2012/03/webinar-registration-2/
Hi everybody,
I am trying to model a connection in ANSYS and analyse it under cyclic load (Earthquake Load). first of all I have done my 3D model in Auto CAD but I dont know how to transfer this to ANSYS!!!
Also I have the graph for the cyclic load which is based on number of Cycles (x-axis) and storey drift (y-axis) but I dont know how I am supposed to model this in ANSYS!!!! can anyone help me and guide me through this?! Thank you very much.
LIVE WEBINAR - Realtime Design & Engineering Reviews
Using High-End 3D Visualizations
We would like to invite you to join our third webinar
with Car Design News, the leading online resource for automotive design
industry professionals, transportation design students and enthusiasts
worldwide.
When:
6.04.2011, 16:30 Europe Time or 10:30 EDT
Duration: 30 min live webinar and 15 min Q&A session
Click here
http://cts.vresp.com/c/?RTTAG/65dcba5f66/TEST/0234e1a3f3
and register today for free.
Join RTT experts Jan Bodenstein, Senior Engineering
Consultant, and Boris Koller, Product Manager, for a webinar on the virtual
product development process.
Bodenstein and Koller will provide comprehensive insight
into different techniques for conducting efficient design and engineering
reviews including:
• comparison of variants
• geometry analysis
• simulation of fluid dynamics
• ergonomic evaluations
• immersive applications
Virtual Reality is becoming increasingly important in the
product development process. New visualization and simulation technologies are
minimizing dependence on physical prototypes, which in turn create massive cost
and time savings.
Manufacturers can perform comprehensive reviews of design
and technical concepts directly on a virtual model in realtime and with
life-like quality. This virtual process allows for more rapid and reliable
product development and enables short-term decision making.
Global Strategies Group is looking for a Scientific Programmer to design, develop and implement software environment/components for geometry representation and mesh generation in support of computational mechanics applications
Significant software development/programming activity is expected.
Qualifications:
===============
Masters or PhD in Engineering or Computer Science
Background and experience:
==================================
Strong background in geometric modeling and automatic mesh generation
techniques suitable for engineering analysis and design.
In-depth knowledge of CAD-CAE integration issues for engineering
analyses using finite element methods.
Hands-on experience with one or more geometric modeling kernels.
Experience with distributed high-performance computing platforms
is desirable.
Software Skills:
Experience with architecting large-scale software systems
Expertise in modern object-oriented techniques
Expertise in programming C++, C, Fortran
Familiarity with Python and other scripting languages
Location: Naval Research Lab in Washington DC.
Leuven, November 19, 2007. Materialise
launches Mimics 11.1, the new release of the company’s medical imaging and
editing software. This new release builds on the last one, enhancing export to
FEA even more. Overall usability and performance were improved with some very
nice new features. Take a look at our website for more information.
Mimics makes working with medical imaging data very easy. Fulfilling the need for user-friendly 3D image processing and editing software, it displays scanner and microscopy data in a variety of ways, providing accurate views of specific parts of the human anatomy. Mimics interfaces between scanner data and CAD formats; between medical images and rapid prototyping; and between an image and any finite element or computational fluid dynamics package.
Materialise supports the most innovative research conducted with the assistance of Mimics, with the Mimics Innovation Awards. Winners in each category receive a money prize to support them in their research.