How technical standards are developed for global engineering and manufacturing organizations

Bauer Bailey, Alyssa Kay

22 December 2010

This paper explores how corporations can choose technical standards used throughout its organization. A methodology for choosing the standard is introduced. It is based on the methods that professional standards organizations use to create new standards for industries. The steps to choose an external standard as well as create new internal standards are consensus, development, approvals, and maintenance. Questions about standards from Applied Materials are answered: what technical standard should be used for engineering drawings, should the company use metric units, what tolerance scheme should be used, and how are standards chosen when a merger or acquisition is performed? Applied Materials should use the ASME Y14.5M-1994 standard. The move to metric should be done if the customers request it. Simple parts and complex assemblies should not be toleranced the same way. When mergers and acquisitions are done, the consensus, development, approval, and maintenance method should be used to choose which standards should be used. / text

Standards

Engineering

Manufacturing

Metric

Technical standards

Applied Materials

Fatigue Strength of Friction Stir Welded Joints in Aluminium

Ericsson, Mats

January 2005

<p>Solid state Friction stir welding (FSW) is of major interest in the welding of aluminium since it improves the joint properties. Many applications where Al-alloys are used are subject to varying load conditions, making fatigue failure a critical issue. In the scope of this thesis, the fatigue performance of friction stir welded AlMgSi-alloy 6082 has been investigated. Static and dynamic properties of different joint configurations and welds produced with varying process parameters have been determined. Microstructures of fractured surfaces have been studied to evaluate the effect of weld discontinuities on fatigue. The mechanical strength of the friction stir welds was set in relation to that of conventional fusion welds, and that of other FS welded Al-alloys.</p><p>The friction stir process produced aluminium butt welds with high and consistent fatigue strengths, which exceeded the strengths of similar fusion welded samples. A smooth weld geometry showed to be of great importance for the fatigue performance, favouring the friction stir welds. Welding speed in a tested range of 0.35-1.4 m/min had only a modest influence on the properties of the friction stir welds; properties were not deteriorating at the highest speed. The softening of the alloy around the weldline was modelled. A fair description of the hardness profiles across the weld was obtained. At a low and high welding speed a full and partial softening respectively was predicted, indicating that full softening is not required to obtain a flawless weld.</p><p>In case of friction stir overlap welds, tool design is even more important than in butt welding to secure weld quality. A broad tool shoulder with a concave pin end gave the best performance. In particular, the minimal influence on the sheet interface when welding with such a tool was beneficial for the fatigue strength. The stress distribution in overlap and T-type test specimens has been modelled. The stress intensity factors were determined. The corresponding crack propagation rates were in fair accordance with the experimental results. It was found that a simplified approach, developed to estimate ∆K for overlap spot welds, could be used also for friction stir overlap joints.</p>

Materials science

Applied Materials Technology

friction stir welding

fatigue

mechanical properties

welding speed

softening

Materialvetenskap

Materials science

Teknisk materialvetenskap

Fatigue Strength of Friction Stir Welded Joints in Aluminium

Ericsson, Mats

January 2005

Solid state Friction stir welding (FSW) is of major interest in the welding of aluminium since it improves the joint properties. Many applications where Al-alloys are used are subject to varying load conditions, making fatigue failure a critical issue. In the scope of this thesis, the fatigue performance of friction stir welded AlMgSi-alloy 6082 has been investigated. Static and dynamic properties of different joint configurations and welds produced with varying process parameters have been determined. Microstructures of fractured surfaces have been studied to evaluate the effect of weld discontinuities on fatigue. The mechanical strength of the friction stir welds was set in relation to that of conventional fusion welds, and that of other FS welded Al-alloys. The friction stir process produced aluminium butt welds with high and consistent fatigue strengths, which exceeded the strengths of similar fusion welded samples. A smooth weld geometry showed to be of great importance for the fatigue performance, favouring the friction stir welds. Welding speed in a tested range of 0.35-1.4 m/min had only a modest influence on the properties of the friction stir welds; properties were not deteriorating at the highest speed. The softening of the alloy around the weldline was modelled. A fair description of the hardness profiles across the weld was obtained. At a low and high welding speed a full and partial softening respectively was predicted, indicating that full softening is not required to obtain a flawless weld. In case of friction stir overlap welds, tool design is even more important than in butt welding to secure weld quality. A broad tool shoulder with a concave pin end gave the best performance. In particular, the minimal influence on the sheet interface when welding with such a tool was beneficial for the fatigue strength. The stress distribution in overlap and T-type test specimens has been modelled. The stress intensity factors were determined. The corresponding crack propagation rates were in fair accordance with the experimental results. It was found that a simplified approach, developed to estimate ∆K for overlap spot welds, could be used also for friction stir overlap joints. / QC 20101008

Materials science

Applied Materials Technology

friction stir welding

fatigue

mechanical properties

welding speed

softening

Materialvetenskap

Materials science

Teknisk materialvetenskap

設備供應商在顯示器產業的市場競爭與策略: 以應用材料為例 / Market Competition and Business Strategy of Equipment Suppliers in Display Industry: A Case of Applied Materials, Inc.

歐陽承沛, Ouyang, Cheng Pei

Unknown Date

設備供應商在顯示器產業的市場競爭與策略: 以應用材料為例 / Flat panel display (FPD) is one of the most booming industries in the past decade. It shows everywhere in our life, such as TV, smartphone, laptop, car display, and public display. In the FPD plants, the manufacturing equipment is the critical portion to determine the performance of the production lines. Equipment suppliers combine advanced technologies into mass production tools, and eventually boost the innovation of information technology. In this thesis we will discuss about the market of display industry and the equipment market, followed by analysis of the strategy of equipment suppliers. We will use Applied Materials as the case, to see what their strategy to keep the leading position in the competitive market for over 20 years.

設備供應商

顯示器產業

市場競爭與策略

應用材料

Equipment Suppliers

Display Industry

Market Competition and Business Strategy

Applied Materials