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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

台灣塑膠射出成型加工業生產管理之研究

李清松 Unknown Date (has links)
No description available.
2

我國金屬射出成型產業競爭策略 / Metal injection molding industry competitive strategy

黃孟楨, Huang, Meng Cheng Unknown Date (has links)
現今是資訊發達且多變的環境,企業要生存必須因應環境的變化。目前在機械業界中最熱門的金屬射出成形(Metal injection mold) 技術,使得零組件成形與加工技術有革命性的改變。現今全球具規模的金屬射出成形產業的供應商將近30年的歷史,過去五年都維持在約15%以上成長,個案P公司是由粉末冶金產業開始,其主力產品是汽車零件,在2008年下半年金融風暴的襲擊,汽車產業衰退,該公司在此情況,精進金屬射出成形的技術,並研發節省能源設計的新材料,提供給汽車產業和其他市場的使用;另一個案T公司在金屬射出成形產業有十多年,主要是製造形狀複雜、高精密度的機械零件。本研究希望藉由產業環境分析與個案分析,找尋金屬射出成形產業的利基點,與企業在發展和成長過程,探討出未來經營策略或可行的方案。 本研究的理論基礎主要是參考Michael Porter的產業分析(1980)對於MIM產業的總體環境和產業分析,瞭解其發展趨勢;接著引用Porter的五力分析(1985),分析個案企業面臨外在產業的環境,與其競爭優勢;最後採用Weihrich,Heinz (1982)提出SWOT矩陣策略配對,將個案公司內部的優勢、劣勢與外部的機會及威脅以矩陣結構的方式分析,利用最大之優勢和機會、及最小之劣勢與威脅,以界定出其目前所處的情況,進而研擬出個案公司適當的因應對策。 經過產業分析和個案分析後,本研究得到以下結論:(一)、影響粉末冶金、金屬射出成形產業的因素為全球經濟環境、石油價格和科技技術。(二)、粉末冶金產業的生命週期已進入成長期,金屬射出成形正邁入成長期。(三)、形狀複雜高精密度的小型機械零件,以傳統加工方式不易生產,用MIM的技術可以量產出這些複雜的形狀,減少加工的步驟,為其利基點。(四)、目前以MIM技術生產持續降低成本,縮短交期、增加其競爭優勢。(五)、產品廣泛應用在各種需要金屬零件的產業界,如個案P公司生產汽車齒輪的數量,供應全球汽車產業需求量超過三分之ㄧ,而個案T公司生產小而複雜的零部件提供給手工具、3C產品和資訊等產業,都有獲利的空間。 對於金屬射出成型產業的建議為 (一)、在各國節約能源和環保愛地球,研發技術人員需開發輕金屬零件,以因應市場需求。(二)、因歐美市場汽車需求量降低,而大陸市場汽車需求量大,因此大陸正積極的發展金屬粉末射出成形產業,並尋求台灣零件的供給,是我們拓展市場的機會。(三)、對於3C和資訊產業的產品,因其產品生命週期短,需要有專案的技術人員以最短的開發和交樣時間,以ERP管理,降低庫存,並與客戶一起開發,節省資源,降低風險。 關鍵字: 金屬射出成型(MIM),SWOT矩陣策略。 / In the fast growing IT world of today, Metal Injection Molding (MIM) technology transform the traditional manufacturing method of the metallic parts to a revolutionary fabrication process in the machinery industries. MIM actually has been developed for more than 30 years, and in the latest 5 years, the annual growth rate is about 10 to 15%. End products are commonly component items used in various industries and applications. Company P has been using powder metallurgical technology to produce auto parts. Although its business was affected by the slowdown of auto industries due to the financial storm in the second half of 2008, its advancement in the MIM technology, including the development of the energy saving material, had helped the company to survive in the downturn of auto industries. Another Company T in the case study has used the MIM technology to provide the diversified geometrically complex metal parts for more than 10 years. This study was using the tools of analysis and case studies to find the niche of metal injection molding industry for the enterprise to explore the appropriate managing strategies during they were developing and growing process of the business. The theoretical background of this study is referring to the industry analysis and 「Five Force analysis」 made by Professor Michael Porter of Harvard University in 1980 and 1985. It gives an overview and the overall environmental and competitive analysis and used for studying the development trend of the MIM industry. Using the SWOT matrix for strategy matching proposed by Weihrich in 1982, the company’s internal strengths, weaknesses and external opportunities and threats, could be analyzed and expressed in an explicit form. Then, maximize the strengths and opportunities and minimize the weaknesses and threats to define the present situation, and then develop the best applicable strategies for the company. Through industry analysis and case studies, this study concludes the followings: (1) Powder metallurgy and metal injection molding industry are affected by the global economic environment, oil prices and the technological advancement. (2) The life cycle of powder metallurgy industry is at its growth period, but the metal injection molding is at the end of embryonic period and moving to growth period. (3) Since it’s not easy to use the traditional fabrication process to make the complicated or asymmetric shaped metallic parts, the metal injection molding technology has the advantages of making the complicated parts with less fabrication steps. (4) Powder metallurgy and metal injection molding could continuously reduce costs and shorten the delivery time to increase their competitiveness. (5) The products could be widely used in various kinds of industry where the metallic parts are needed. Company P is producing one-third of the gears used in the world-wide auto industries and Company T is making the small and complex parts for the hand tools, 3C and IT industries with profits. Finally, the suggestions for metal injection molding industry are listed as follows: (1) Under the regulations of the environment protection, we should develop the energy conserving and carbon-reducing materials to meet the requirements. (2) China is developing the metal injection molding technology aggressively to meet the demand of its automobile market, which provides a great business opportunity of the auto parts supplier of Taiwan, (3) Since the life cycle of 3C and IT products is very short, the engineering team should design and fabricate the products in a very short time to the market. Also, it is necessary to use ERP management to reduce inventory and co-work with customers to develop products, conserve resources and reduce the risk.

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