#PostDoc #position at #GATech - #Origami_Engineering
#POSTDOCTORAL FELLOW POSITION School of #Civil and #Environmental #Engineering, #Georgia_Institute_of_Technology. We have an immediate opening for a postdoctoral fellow. The position’s primary area of research will focus on origami engineering with emphasis on #metamaterials, #adaptive_structures, #optimization, and #additive_manufacturing. Expertise is particularly sought in rapid prototyping, #multiphysics modeling, and #nonlinear #multiscale #finite_element_analysis and #design. The initial appointment is for one year with potential to extend, subject to the availability of funds. The candidate will have a lot of intellectual freedom and is expected to be a self-motivated, independent thinker, and possess a proven record of high-quality publications.
A #doctoral_degree in engineering and/or #applied_mathematics is required. We will be reviewing applications immediately on receipt. Interested candidates should forward their #CV, two representative publications and contact details of at least two references to:
Professor G.H. Paulino, School of Civil and Environmental Engineering, Georgia Institute of Technology, 5142B Jesse W. Mason Building, 790 Atlantic Drive NW, Atlanta, GA 30318, USA Email: paulino@gatech.edu The Georgia Institute of Technology University is an affirmative action, equal opportunity employer.
—---------------------------—
💻 @BanuMusa
🌎 https://Banumusagr.com
#POSTDOCTORAL FELLOW POSITION School of #Civil and #Environmental #Engineering, #Georgia_Institute_of_Technology. We have an immediate opening for a postdoctoral fellow. The position’s primary area of research will focus on origami engineering with emphasis on #metamaterials, #adaptive_structures, #optimization, and #additive_manufacturing. Expertise is particularly sought in rapid prototyping, #multiphysics modeling, and #nonlinear #multiscale #finite_element_analysis and #design. The initial appointment is for one year with potential to extend, subject to the availability of funds. The candidate will have a lot of intellectual freedom and is expected to be a self-motivated, independent thinker, and possess a proven record of high-quality publications.
A #doctoral_degree in engineering and/or #applied_mathematics is required. We will be reviewing applications immediately on receipt. Interested candidates should forward their #CV, two representative publications and contact details of at least two references to:
Professor G.H. Paulino, School of Civil and Environmental Engineering, Georgia Institute of Technology, 5142B Jesse W. Mason Building, 790 Atlantic Drive NW, Atlanta, GA 30318, USA Email: paulino@gatech.edu The Georgia Institute of Technology University is an affirmative action, equal opportunity employer.
—---------------------------—
💻 @BanuMusa
🌎 https://Banumusagr.com
💬 طراحی و تحلیل پروانه های مغروق
#Design_and_Analysis_of_Submerged_Propellers
#Design_and_Analysis_of_Submerged_Propellers
BanuMusa | بنوموسی
💬 طراحی و تحلیل پروانه های مغروق #Design_and_Analysis_of_Submerged_Propellers
📌
🔸در طراحی پروانه های دریایی معمولا از روش پنل استفاده می شود.
🔸 در این روش هر شکل ممکنی از پروانه تحلیل و بهترین آن انتخاب می شود تا مدل اصلاح شده تولید گردد. پس از یک فرآیند تکراری رفت و برگشتی مدل نهایی انتخاب می شود.
🔸سرعت و دقت این روش برای پروانه های متداول قابل قبول است.
🔸از آنجایی که این روش بر اساس تئوری جریان پتانسیل است اثرات ویسکوز در آن در نظر گرفته نمی شود.
🔸 پس از آن، جهت تحلیل دقیق تر پارامترهایی مانند ویک، پروانه در نرم افزارهای CFD شبیه سازی می شود.
🔸 به این ترتیب تراست و گشتاور پروانه به خوبی محاسبه شده و پدیده های جریان محلی (مثل محل اتصال پروانه به هاب) تشخیص داده شده و اصلاح می شود.
🔸تقریبا هر پروانه ی مغروقی تحت اثر کاویتاسیون قرار می گیرد: 1- هنگامی که در ویک شناور باشد و 2- هنگامی که تحت اثر شیب شفت قرار گیرد.
🔸 #شرکت_بنیان_صنعت_بنوموسی، توانایی محاسبه و شبیه سازی این موارد را برای پروانه های مغروق دارد. این شرکت برنامه هایی توسعه داده است، که جهت حل معادلات ناویر-استوکس (2 بعدی) و شرایط 3 بعدی پروانه برای حالات کاویتاسیون ناپایدار مورد استفاده قرار می گیرد.
#بنوموسی #شبیه_سازی #پروانه #شبیه_سازی_عددی #تحلیل_جریان #تحلیل_لیفت #دریا #کاویتاسیون #روش_پنل #خدمات
#BanuMusa #BSB #Simulation #Fluent #CFD #propellers #Marine #Drag #Lift #Cavitation #Vorticity #Panel_method #Submerged_Propellers #Services
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طراحی و تحلیل پروانه های مغروق
#Design_and_Analysis_of_Submerged_Propellers🔸در طراحی پروانه های دریایی معمولا از روش پنل استفاده می شود.
🔸 در این روش هر شکل ممکنی از پروانه تحلیل و بهترین آن انتخاب می شود تا مدل اصلاح شده تولید گردد. پس از یک فرآیند تکراری رفت و برگشتی مدل نهایی انتخاب می شود.
🔸سرعت و دقت این روش برای پروانه های متداول قابل قبول است.
🔸از آنجایی که این روش بر اساس تئوری جریان پتانسیل است اثرات ویسکوز در آن در نظر گرفته نمی شود.
🔸 پس از آن، جهت تحلیل دقیق تر پارامترهایی مانند ویک، پروانه در نرم افزارهای CFD شبیه سازی می شود.
🔸 به این ترتیب تراست و گشتاور پروانه به خوبی محاسبه شده و پدیده های جریان محلی (مثل محل اتصال پروانه به هاب) تشخیص داده شده و اصلاح می شود.
🔸تقریبا هر پروانه ی مغروقی تحت اثر کاویتاسیون قرار می گیرد: 1- هنگامی که در ویک شناور باشد و 2- هنگامی که تحت اثر شیب شفت قرار گیرد.
🔸 #شرکت_بنیان_صنعت_بنوموسی، توانایی محاسبه و شبیه سازی این موارد را برای پروانه های مغروق دارد. این شرکت برنامه هایی توسعه داده است، که جهت حل معادلات ناویر-استوکس (2 بعدی) و شرایط 3 بعدی پروانه برای حالات کاویتاسیون ناپایدار مورد استفاده قرار می گیرد.
#بنوموسی #شبیه_سازی #پروانه #شبیه_سازی_عددی #تحلیل_جریان #تحلیل_لیفت #دریا #کاویتاسیون #روش_پنل #خدمات
#BanuMusa #BSB #Simulation #Fluent #CFD #propellers #Marine #Drag #Lift #Cavitation #Vorticity #Panel_method #Submerged_Propellers #Services
______________________
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👈 بنیان صنعت بَنوموسی
☎️ 051-38 67 67 18
🖥 www.BanuMusaGr.com
📧 info@BanuMusaGr.com
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🎁مشاوره رایگان
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BanuMusa
📌 طراحی و تحلیل پروانه های مغروق #Design_and_Analysis_of_Submerged_Propellers 🔸در طراحی پروانه های دریایی معمولا از روش پنل استفاده می شود. 🔸 در این روش هر شکل ممکنی از پروانه تحلیل و بهترین آن انتخاب می شود تا مدل اصلاح شده تولید گردد. پس از یک فرآیند تکراری…
BanuMusa | بنوموسی
💬چرا لازم است قبل از طراحی قالب از نرم افزارهای شبیه سازی تزریق پلاستیک استفاده شود؟ #خدمات ☎️ 051-38 67 67 18 🖥 www.BanuMusaGr.com 📧 info@BanuMusaGr.com 🎁 مشاوره رایگان
📌چرا لازم است قبل از طراحی قالب از نرم افزارهای شبیه سازی تزریق پلاستیک استفاده شود:🔸استفاده از نرم افزار به شما کمک می کند تا #عیوب بوجود آمده در هنگام #ساخت #قطعه را پیش بینی و از پدید آمدن آنها در همان مراحل اولیه #طراحی و ساخت #قالب اجتناب کنید.
🔸شناسایی عیوب معمول قالب گیری نظیر کم آوردگی #مواد یا پرنشدن قالب، #حبس_هوا، #خط_جوش، راستای تقویت کننده ها، فرورفتگی، تاب برداشتن و جمع شدگی
🔸پیش بینی #فشار #تزریق لازم و نیروهای قفل قالب
🔸#شبیه_سازی فاز پرشدن و تراکم
🔸جلوگیری از هدررفت #ماده و #بهینه_سازی زمان پرشدن
🔸مشاهده جریان #مذاب، خطوط جوش، حبس هوا، تورفتگی، جمع شدگی، راستای الیاف، کانتور #دما و #فشار
#Simpoe_Mold #manufacturing #mold #design #short_shots #MoldFlow #air_traps #weld_lines #fiber_orientation #sink_marks #injection_molding #Service #BanuMusaGr
#بنوموسی #تزریق_پلاستیک #مولدفلو #خدمات
🎞عکس
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➕مطلب مشابه
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💬چرا لازم است قبل از طراحی قالب از نرم افزارهای شبیه سازی تزریق پلاستیک استفاده شود؟
#خدمات
☎️ 051-38 67 67 18
🖥 www.BanuMusaGr.com
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🎁 مشاوره رایگان
#خدمات
☎️ 051-38 67 67 18
🖥 www.BanuMusaGr.com
📧 info@BanuMusaGr.com
🎁 مشاوره رایگان
📌طراحی ظروف تحت فشار با استفاده از استاندارد (Design by Analysis)تقریبا 100 سال پیش، ASME دستورات مربوط به طراحی ظروف تحت فشار با نام (Boiler and Pressure Vessel Code (BPV را به منظور افزایش ایمنی در صنایع منتشر کرد. امروز، ASME VIII پرکاربردترین دستورالعمل برای طراحی ظروف تحت فشار است. این دستورالعمل دارای 3 بخش است که هر بخش مربوط به کاربردها و روشهای مشخص است.
➕ادامه
🎁 مشاوره رایگان
#Design #Analysis #ASME #Pressure_Vessels #Industry
#مخزن_فشار #تحلیل #خدمات #صنعت #استاندارد #طراحی #بنوموسی
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BanuMusa | بنوموسی
📌پیش بینی خرابی و عمر ناشی از ارتعاشات تصادفی ☎️ 051-38 67 67 18 🖥 www.BanuMusaGr.com 📧 info@BanuMusaGr.com 🎁 مشاوره رایگان
📌پیش بینی خرابی و عمر ناشی از ارتعاشات تصادفی🔸اکثر خرابی سازه ها، در حالتی است که به نوعی مرتبط به پدیده خستگی می شود. خرابی محصولات و قطعات موجب اتلاف سرمایه و پیامدهای مالی بسیاری برای صنایع است.
🔸پیش بینی خرابی بالقوه محصولات در مرحله طراحی امری بسیار ضروری است. یکی از خرابی های خستگی متداول در تجهیزات ارتعاشات تصادفی می باشد که متاثر از نیروهای تحریکی تصادفی می باشد. این نیروهای تصادفی موجب می شوند که سیستم دچار ارتعاشاتی غیر قابل پیش بینی گردد و با گذشت زمان با مسأله فرسودگی و یا شکست روبرو شود.
🔸تحریک می تواند ناشی از شتاب، جابه جایی، سرعت، نیرو یا فشار باشد. آنالیز ارتعاشات تصادفی به وفور در صنایع خودروسازی، هوافضا و عمران کاربرد دارد.
🔸در نرم افزارهای شبیه سازی عددی، تکنیک های متنوعی برای پیش بینی خرابی خستگی ناشی از ارتعاشات تصادفی وجود دارد.
🎞عکس
🎁 مشاوره رایگان
#Design #Analysis #PSD #Random_Vibration_analysis #Industry
#خودرو #هوافضا #خدمات #صنعت #خستگی #طراحی #بنوموسی #ارتعاشات_تصادفی
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📌پیش بینی خرابی و عمر ناشی از ارتعاشات تصادفی
☎️ 051-38 67 67 18
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📧 info@BanuMusaGr.com
🎁 مشاوره رایگان
☎️ 051-38 67 67 18
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🎁 مشاوره رایگان
#Job
#Industrial #UCL #PhD #Studentship in the #Design of Novel #Microfluidic Devices
PhD Studentship
Department of Mechanical Engineering
University College London
UCL-EPSRC DTP-CASE PhD Studentship expression of interest
TITLE: #Computational and #experimental design of new microfluidic devices for isolating circulating #tumour cells:
Description: Outstanding applications are invited to submit their expression of interest to join the Department of Mechanical Engineering at UCL as part of an EPSRC Doctoral Training Programme CASE (DTP-CASE) PhD studentship. The PhD project is being jointly supervised by Professor Emad Moeendarbary from the Department of Mechanical Engineering (University College London, UCL) and Dr Cesar Cortes-Quiroz from ANGLE plc (British multinational medical device company).
Project Brief: Cancer Research UK‘s statistics suggest that men have a 45% likelihood of suffering from cancer during their life, while women are only slightly lower at 41%. All forms of cancer are characterized by excessive proliferation of cells in the form of solid tumours, which often shed cancer cells into the patient’s bloodstream to other secondary locations (metastasis cascade). These cells, known as Circulating Tumour Cells (CTCs), are very rare (a single cell in one billion blood cells) and difficult to isolate. However, they are highly valuable cells due to their defining features. They contain information on the type of disease for cancer diagnosis, which can help in deciding targeted drug therapies and treatment monitoring, while their presence and quantity are indicative of patient prognosis.
For CTC isolation, size-/deformability-based cell separation (enrichment) technologies are distinguished because their operating methods are label-free, fast and simple. Enriched CTCs remain unmodified and viable for downstream analyses.
The aim of this project will be to develop a numerical simulation platform for the design and analysis of the flow patterns of whole blood and biological reagents during the operation of microfluidic devices used for CTCs isolation from patient blood samples. Insights of flow characteristics will be determined and design modifications proposed to improve the capacities and efficiency of the system. Traditional mechanical components of lab equipment systems such as reservoirs, flow generators, valves, tubing, sensors and actuators will be investigated on their efficacy to carry the biological fluids without compromising the performance of the system. A CAD tool will be used to model 2-D and 3-D geometries of a proposed medical device and a CFD tool will explore the fluid flow characteristics in different system components. Aspects of cellular biomechanics and behaviour during blood transport can be included to determine their impact on the performance of critical capturing microdevices of the system. The final outcome of the work will be an improved system configuration and composition as well as its optimum operating conditions. Experimental validations will be coordinated with a leading biotechnology company in new liquid biopsy technology.
Environment, Research and Training: The project is mainly based at UCL (Bloomsbury Campus located in the heart of Central London) which is one of the world’s top multidisciplinary universities, with an international reputation for the quality of its research and teaching. The candidate will benefit from state-of-the-art mechanical engineering research training, high-performance computing, experimental laboratories and combined supervision by world-leading engineers and scientists in the fields of microfluidics, cellular biology, biomechanics, mathematical and computational modelling. As part of this project, you will be collaborating with the industrial partner.
#Industrial #UCL #PhD #Studentship in the #Design of Novel #Microfluidic Devices
PhD Studentship
Department of Mechanical Engineering
University College London
UCL-EPSRC DTP-CASE PhD Studentship expression of interest
TITLE: #Computational and #experimental design of new microfluidic devices for isolating circulating #tumour cells:
Description: Outstanding applications are invited to submit their expression of interest to join the Department of Mechanical Engineering at UCL as part of an EPSRC Doctoral Training Programme CASE (DTP-CASE) PhD studentship. The PhD project is being jointly supervised by Professor Emad Moeendarbary from the Department of Mechanical Engineering (University College London, UCL) and Dr Cesar Cortes-Quiroz from ANGLE plc (British multinational medical device company).
Project Brief: Cancer Research UK‘s statistics suggest that men have a 45% likelihood of suffering from cancer during their life, while women are only slightly lower at 41%. All forms of cancer are characterized by excessive proliferation of cells in the form of solid tumours, which often shed cancer cells into the patient’s bloodstream to other secondary locations (metastasis cascade). These cells, known as Circulating Tumour Cells (CTCs), are very rare (a single cell in one billion blood cells) and difficult to isolate. However, they are highly valuable cells due to their defining features. They contain information on the type of disease for cancer diagnosis, which can help in deciding targeted drug therapies and treatment monitoring, while their presence and quantity are indicative of patient prognosis.
For CTC isolation, size-/deformability-based cell separation (enrichment) technologies are distinguished because their operating methods are label-free, fast and simple. Enriched CTCs remain unmodified and viable for downstream analyses.
The aim of this project will be to develop a numerical simulation platform for the design and analysis of the flow patterns of whole blood and biological reagents during the operation of microfluidic devices used for CTCs isolation from patient blood samples. Insights of flow characteristics will be determined and design modifications proposed to improve the capacities and efficiency of the system. Traditional mechanical components of lab equipment systems such as reservoirs, flow generators, valves, tubing, sensors and actuators will be investigated on their efficacy to carry the biological fluids without compromising the performance of the system. A CAD tool will be used to model 2-D and 3-D geometries of a proposed medical device and a CFD tool will explore the fluid flow characteristics in different system components. Aspects of cellular biomechanics and behaviour during blood transport can be included to determine their impact on the performance of critical capturing microdevices of the system. The final outcome of the work will be an improved system configuration and composition as well as its optimum operating conditions. Experimental validations will be coordinated with a leading biotechnology company in new liquid biopsy technology.
Environment, Research and Training: The project is mainly based at UCL (Bloomsbury Campus located in the heart of Central London) which is one of the world’s top multidisciplinary universities, with an international reputation for the quality of its research and teaching. The candidate will benefit from state-of-the-art mechanical engineering research training, high-performance computing, experimental laboratories and combined supervision by world-leading engineers and scientists in the fields of microfluidics, cellular biology, biomechanics, mathematical and computational modelling. As part of this project, you will be collaborating with the industrial partner.
🛢🛢موقعیت شغلی مهندس مدل سازی و شبیه ساز در شرکت خدمات نفتی شلمبرژه
#Job #شغلی
Full-Time Position in Schlumberger – Modeling and Simulation Engineer
Title: #Modeling and #Simulation Engineer
Category: Full-time position in industry
Employer: Schlumberger Technology Corporation
Location: United States, Texas, Sugar Land
Opening Date: 08/01/2019
To apply, please submit your resume and a list of 3 references to JShi2@slb.com.
Introduction
Schlumberger has an opening in Sugar Land, Texas for a Modeling and Simulation Engineer. The Modeling and Simulation Engineer will be responsible for developing digital representations (or twins) of physical assets or processes to produce business outcomes. You will need to work seamlessly with a multidisciplinary team and present project progress to various internal and external clients.
Responsibilities
The candidate may work on any of the following:
• Understand the #design, #manufacturing, and #operation of the products you perform Modeling and Simulation on
• Gather project-related information through internal and external sources
• Develop high-fidelity physics-based models and their reduced-order versions
• Integrate various models developed in different software environments into a system model to enable co-simulation and accurately predict the performance and health condition of a physical asset
• Process, analyze, and infuse #sensor data into models for off-line or real-time #calibrations
• Develop data-driven models with machine learning techniques
• Develop #scripts to link different pieces of information and automate repetitive tasks
• Deliver results per defined key project milestones along with team members and collaborators
• Present project progress updates to stakeholders and management
• Develop domain expertise and share knowledge with peers and the engineering community
Qualifications & Experience
• Ph.D. degree in Mechanical Engineering, Aerospace Engineering, Civil Engineering, or Engineering Mechanics, with a specialty in Applied Mechanics; a minor degree or substantial training through MOOC in data science and machine learning is preferred.
• Fresh-out graduates or experienced professionals are welcome to apply. Experience in the #Oil & #Gas #industry is a plus.
• Extensive experience in system modeling (reduced-order modeling, model integration, and co-simulation), scientific programming (C/C++, #Python, #Modelica), and functional mockup unit generation is essential.
• Solid knowledge of #Ansys or #ABAQUS is a must. Experience in other commercial codes for Computational Mechanics is a plus.
• Knowledge of data science, statistical analysis, machine learning, and cloud computing is highly desirable.
• Excellent oral and written communication skills in English.
• Autonomous and creative approach towards challenging problems.
• Candidates must be able to legally work and reside in the US.
Schlumberger is an equal employment opportunity employer. Qualified applicants are considered without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, age, disability, status as a protected veteran or other characteristics protected by law.
Schlumberger is a VEVRAA Federal Contractor – priority referral Protected Veterans requested.
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#Job #شغلی
Full-Time Position in Schlumberger – Modeling and Simulation Engineer
Title: #Modeling and #Simulation Engineer
Category: Full-time position in industry
Employer: Schlumberger Technology Corporation
Location: United States, Texas, Sugar Land
Opening Date: 08/01/2019
To apply, please submit your resume and a list of 3 references to JShi2@slb.com.
Introduction
Schlumberger has an opening in Sugar Land, Texas for a Modeling and Simulation Engineer. The Modeling and Simulation Engineer will be responsible for developing digital representations (or twins) of physical assets or processes to produce business outcomes. You will need to work seamlessly with a multidisciplinary team and present project progress to various internal and external clients.
Responsibilities
The candidate may work on any of the following:
• Understand the #design, #manufacturing, and #operation of the products you perform Modeling and Simulation on
• Gather project-related information through internal and external sources
• Develop high-fidelity physics-based models and their reduced-order versions
• Integrate various models developed in different software environments into a system model to enable co-simulation and accurately predict the performance and health condition of a physical asset
• Process, analyze, and infuse #sensor data into models for off-line or real-time #calibrations
• Develop data-driven models with machine learning techniques
• Develop #scripts to link different pieces of information and automate repetitive tasks
• Deliver results per defined key project milestones along with team members and collaborators
• Present project progress updates to stakeholders and management
• Develop domain expertise and share knowledge with peers and the engineering community
Qualifications & Experience
• Ph.D. degree in Mechanical Engineering, Aerospace Engineering, Civil Engineering, or Engineering Mechanics, with a specialty in Applied Mechanics; a minor degree or substantial training through MOOC in data science and machine learning is preferred.
• Fresh-out graduates or experienced professionals are welcome to apply. Experience in the #Oil & #Gas #industry is a plus.
• Extensive experience in system modeling (reduced-order modeling, model integration, and co-simulation), scientific programming (C/C++, #Python, #Modelica), and functional mockup unit generation is essential.
• Solid knowledge of #Ansys or #ABAQUS is a must. Experience in other commercial codes for Computational Mechanics is a plus.
• Knowledge of data science, statistical analysis, machine learning, and cloud computing is highly desirable.
• Excellent oral and written communication skills in English.
• Autonomous and creative approach towards challenging problems.
• Candidates must be able to legally work and reside in the US.
Schlumberger is an equal employment opportunity employer. Qualified applicants are considered without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, age, disability, status as a protected veteran or other characteristics protected by law.
Schlumberger is a VEVRAA Federal Contractor – priority referral Protected Veterans requested.
__________________
🎁 مشاوره رایگان
☕️ همراه ما باشید...
©️ بنیان صنعت بَنوموسی™️مرکز پیشرفته طراحی، مهندسی معکوس، آنالیز و ساخت قطعات و تجهیزات مهندسی
☎️ 051-38 67 67 18
موقعیت #تحصیلی #پسادکتری در دانشگاه ایلینویز
#Postdoc position at Illinois -- metamaterial device #design
#job
#metamaterials
#plasmonics
#photonics
#design
A postdoctoral research position in the design of #materials and #structures for #tunable and #active plasmonic #filters is available immediately in the research group of Prof. Harley T. Johnson in the Department of Mechanical Science and Engineering and the Materials Research Lab at the University of Illinois at Urbana-Champaign.
The position will involve a #computational effort and a close collaboration with a national lab team of #experimental and computational partners. The project is expected to result in the publication and presentation of work in leading journals and conferences.
The ideal candidate will have experience in one or more of the following:
* plasmonic or photonic metamaterial device design
* #simulation software including #COMSOL, #Lumerical, or other #FDTD or #FEM #codes for optical phenomena
* understanding of theory of infrared spectroscopy
* other experience with computational electromagnetics, mechanics of soft materials, #topology #optimization, etc.
The position will be for a duration of one year, with the possibility to extend for a second and third year. For more information, or to submit an application (consisting of a cover letter, a CV, and names of three references), please contact Prof. Johnson by email at htj@illinois.edu.
__________________
🎁 مشاوره رایگان
☕️ همراه ما باشید...
☎️ 051-38 67 67 18
🌐 banumusagr.com
#Postdoc position at Illinois -- metamaterial device #design
#job
#metamaterials
#plasmonics
#photonics
#design
A postdoctoral research position in the design of #materials and #structures for #tunable and #active plasmonic #filters is available immediately in the research group of Prof. Harley T. Johnson in the Department of Mechanical Science and Engineering and the Materials Research Lab at the University of Illinois at Urbana-Champaign.
The position will involve a #computational effort and a close collaboration with a national lab team of #experimental and computational partners. The project is expected to result in the publication and presentation of work in leading journals and conferences.
The ideal candidate will have experience in one or more of the following:
* plasmonic or photonic metamaterial device design
* #simulation software including #COMSOL, #Lumerical, or other #FDTD or #FEM #codes for optical phenomena
* understanding of theory of infrared spectroscopy
* other experience with computational electromagnetics, mechanics of soft materials, #topology #optimization, etc.
The position will be for a duration of one year, with the possibility to extend for a second and third year. For more information, or to submit an application (consisting of a cover letter, a CV, and names of three references), please contact Prof. Johnson by email at htj@illinois.edu.
__________________
🎁 مشاوره رایگان
☕️ همراه ما باشید...
©️ بنیان صنعت بَنوموسی™️مرکز پیشرفته طراحی، مهندسی معکوس، آنالیز و ساخت قطعات و تجهیزات مهندسی
☎️ 051-38 67 67 18
🌐 banumusagr.com
#WhySimulation ⁉️
According to a report published by Aberdeen Strategy & Research in 2017, " best-in-class design engineers built 27% fewer prototypes since deploying simulation-driven design."
Source: https://lnkd.in/eUHu6wSa
#engineers #design #research #simulation #fea
➰با انتشار، از ما حمایت کنید
™️مرکز پیشرفته طراحی، مهندسی معکوس، آنالیز و ساخت قطعات و تجهیزات مهندسی
🐎 "تست نکن، شبیه سازی کن"
🎗#Simulation4Innovation
🧞♂️بنوموسی، تحقیق و توسعه صنعتی
♾ https://t.me/BanuMusaGr
™️ https://BanuMusaGr.com
According to a report published by Aberdeen Strategy & Research in 2017, " best-in-class design engineers built 27% fewer prototypes since deploying simulation-driven design."
Source: https://lnkd.in/eUHu6wSa
#engineers #design #research #simulation #fea
➰با انتشار، از ما حمایت کنید
™️مرکز پیشرفته طراحی، مهندسی معکوس، آنالیز و ساخت قطعات و تجهیزات مهندسی
🐎 "تست نکن، شبیه سازی کن"
🎗#Simulation4Innovation
🧞♂️بنوموسی، تحقیق و توسعه صنعتی
♾ https://t.me/BanuMusaGr
™️ https://BanuMusaGr.com
#whysimulation 😂
All kidding aside, #simulation helps you spend less time and money on product #design and #production. In addition, the product is produced with higher #quality and more #safety.
All kidding aside, #simulation helps you spend less time and money on product #design and #production. In addition, the product is produced with higher #quality and more #safety.