The purpose of the workshop was to identify the means of effecting a 30% reduction in cost and a 30% increase in throughput, by accelerating the insertion of extant and emerging Materials and Manufacturing Technologies.
“CONCEPT VALIDATION AND DESIGN SYNTHESIS OF CAR DASHBOARD AS PER PLASTIC TRIM...Jayesh Sarode
The evolution of dashboard has led to increased
vehicle occupant comfort and convenience as new systems
become available. The project work aims to develop the work
to apply theoretical and practical tools/techniques to solve
real life problems related to industry and current research in
this project automobile (Car) dashboard upper cover is
selected for a design. For doing so conceptual design tool is
used. I am created a five different concepts using different
benchmarking & brainstorming. Select a best option using
different tools in six sigma like trade off analysis. Threedimensional
CAD software (such as CATIA) is used to develop a
CAD model same as concept. The aim is to achieve the essential
function at the lowest overall cost while maintaining
customers’ optimum value assurance. In this project I try to
develop a such dashboard design which follow a design
guidelines, And analyze and discuss the results to Obtain valid
conclusions which follows a design Standards.
Court 2009 transforming traditional m&e construction into a modern process of...Paul Ebbs
Peter is the MEP Director of Delivery at CHUM Montreal for Construction Sante Montreal, a joint venture between OHL and Laing O’Rourke. Prior to this he was responsible for the mechanical scope of the Northern Water Treatment Plant, in Queensland, for LOR Australia. Peter holds an MBA from Aston University, Birmingham and Engineering Doctorate from Loughborough University, UK. Previously he was project leader for the MEP element (£100m) of a large healthcare development in Stoke on Trent, UK. It was on this project that he developed, in conjunction with his EngDoc research, a lean and agile construction system, the objective of which was to improve workers health, safety and productivity, thereby improving the performance of the project. The outcome of the research project is contained in his thesis – ‘Transforming Traditional Mechanical and Electrical Construction into a Modern Process of Assembly.’
On July 10th Innovate UK and the KTN held a business innovation day to showcase 30 of the Innovate UK projects that are currently active in the area of Additive Manufacturing. The presentations and pitches made on the day are now available to download. Topic 3 focuses on Post Processing
“CONCEPT VALIDATION AND DESIGN SYNTHESIS OF CAR DASHBOARD AS PER PLASTIC TRIM...Jayesh Sarode
The evolution of dashboard has led to increased
vehicle occupant comfort and convenience as new systems
become available. The project work aims to develop the work
to apply theoretical and practical tools/techniques to solve
real life problems related to industry and current research in
this project automobile (Car) dashboard upper cover is
selected for a design. For doing so conceptual design tool is
used. I am created a five different concepts using different
benchmarking & brainstorming. Select a best option using
different tools in six sigma like trade off analysis. Threedimensional
CAD software (such as CATIA) is used to develop a
CAD model same as concept. The aim is to achieve the essential
function at the lowest overall cost while maintaining
customers’ optimum value assurance. In this project I try to
develop a such dashboard design which follow a design
guidelines, And analyze and discuss the results to Obtain valid
conclusions which follows a design Standards.
Court 2009 transforming traditional m&e construction into a modern process of...Paul Ebbs
Peter is the MEP Director of Delivery at CHUM Montreal for Construction Sante Montreal, a joint venture between OHL and Laing O’Rourke. Prior to this he was responsible for the mechanical scope of the Northern Water Treatment Plant, in Queensland, for LOR Australia. Peter holds an MBA from Aston University, Birmingham and Engineering Doctorate from Loughborough University, UK. Previously he was project leader for the MEP element (£100m) of a large healthcare development in Stoke on Trent, UK. It was on this project that he developed, in conjunction with his EngDoc research, a lean and agile construction system, the objective of which was to improve workers health, safety and productivity, thereby improving the performance of the project. The outcome of the research project is contained in his thesis – ‘Transforming Traditional Mechanical and Electrical Construction into a Modern Process of Assembly.’
On July 10th Innovate UK and the KTN held a business innovation day to showcase 30 of the Innovate UK projects that are currently active in the area of Additive Manufacturing. The presentations and pitches made on the day are now available to download. Topic 3 focuses on Post Processing
Enhancing & Predicting Auto Reliability Using Physics of Failure Software Mod...Cheryl Tulkoff
Background
A leading U.S. automotive manufacturer initiated an update to their product qualification process to help accelerate development and deliver new products to market sooner. To accomplish this goal, the duration of the accelerated life test was reduced by increasing the severity and decreasing the duration of the temperature cycle.
During an initial trial of this updated qualification test on an electronic module, several components experienced failure. A failure analysis identified the failure mode as solder joint fatigue. Contrary to the original intent, these unexpected failures introduced significant delay as the two parties, customer and supplier, worked to determine the root-cause of these failures and their relevance to actual field environments.
Solution
To help accelerate this process, and provide quantitative findings, an analysis of the module design using Sherlock was performed. Sherlock Automated Design Analysis software uses a Physics of Failure analysis to allow design and reliability engineers to predict and prevent product failure earlier in the design process saving time, money, and improving product performance.
Results
Sherlock’s initial evaluation of the module design correctly predicted which parts would fail, confirming the field results of the accelerated life test conducted by the manufacturer. Results from Sherlock also helped both parties understand how the test environment related to ten (10) years of a realistic worst-case use environment. This information, provided by the Sherlock analysis in less than one day, allowed critical, time-sensitive product development to continue as originally planned.
The automotive manufacturer is now using Sherlock Automated Design Analysis to evaluate additional electronic module redesigns. The use of Sherlock will provide the manufacturer with rapid feedback on product design and enable them to deliver more reliable products to market in less time.
DigitalClone for Engineering Supporting Business Initiatives of Rotorcraft OE...Sentient Science
Sentient Science’s DigitalClone for Engineering Software is used by aircraft OEM, Suppliers and Operators to evaluate new and upgrade designs through materials science-based computational testing. The software is used throughout the design cycle to life critical components within the drivetrain. DigitalClone for Engineering enables certified digital models to be used by aircraft operators for asset management and supply chain planning and demand forecasting by simulating the models under multiple operational profiles.
Accelerating Product Development FLOW: Kanban at Jaguar Land RoverHamish McMinn
Modern automotive engineering is extremely complex: A new vehicle can take 2-4 years to develop, with a cost of delay of about $2 million per day. Shortening feedback loops and minimizing handoff delays has massive impact in reducing product lead time.
We will cover:
• ·Why new product development provides rich opportunities for continuous process improvement
• Benefits and challenges of transferring Agile software techniques to hardware design and development
• How to visualize work, focus on flow and increase cross-functional collaboration using kanban
Driving Innovation with Kanban at Jaguar Land RoverLeanKit
Find out how Kanban is accelerating product design and development at Jaguar Land Rover.
Watch the recorded webinar here: https://vimeo.com/172780037
Hamish McMinn, Automotive and IT Project Manager, will explain how Kanban is improving time, cost and quality across new vehicle development projects at Jaguar Land Rover.
You'll learn:
-Why new product development provides rich opportunities for continuous process improvement.
-Benefits and challenges of transferring agile software techniques to hardware design and development.
-How to visualize work, focus on flow and increase cross-functional collaboration using LeanKit.
Hamish will share learnings from the initial pilot project, and how Kanban is now being scaled across multiple engineering teams.
ATI's Total Systems Engineering Development & Management technical training c...Jim Jenkins
This three-day ATI professional development course, Total Systems Engineering Development & Management, course, covers four system
development fundamentals: (1) a sound
engineering management infrastructure within
which work may be efficiently accomplished, (2)
define the problem to be solved (requirements and
specifications), (3) solve the problem (design,
integration, and optimization), and (4) prove that
the design solves the defined problem
(verification).
Dr. Vivek Saxena, Vice President and Leader Operations & Supply Chain for ICF International’s Aviation & Aerospace division, gave the opening address for the 3rd Annual SpeedNews Aerospace Manufacturing Conference held April 7, 2015 in Palo Verdes, CA. Dr. Saxena’s presentation, “Additive Manufacturing Briefings (AMB)”, provided an overview of this emerging industry sector, including a primer on additive manufacturing and its application in aerospace production. He also provided a preview of the other topics to be presented at this SpeedNews conference.
http://speednews.com/aerospace-manufacturing-conference/agenda
Naval Aviation Materials and Manufacturing Workshop: Accelerating Technology Insertion
1. Naval Aviation Materials and Manufacturing Workshop: Accelerating Technology Insertion Air Vehicle Engineering Department Naval Air Systems Command William E. Frazier, Ph.D 30-31 Jan 2008 Southern Maryland Higher Education Center California MD
2. Workshop Focus Effect a 30% reduction in cost and a 30% increase in throughput, by accelerating the insertion of extant and emerging Materials and Manufacturing Technologies. We tasked the workshop participants to assist us in developing a path to the answer.
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8. Product Generation Plenary Working Groups Idea Generation & Prioritization Post Workshop Analysis & Synthesis Technical Needs, Challenges, and Approaches