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Sunday, September 8, 2019

QFD (Quality Function Deployment) Essay Example | Topics and Well Written Essays - 1250 words

QFD (Quality Function Deployment) - Essay Example The Manufacturing Engineering  program provides a  unique and high quality  engineering education to prepare students for innovation, creativity, leadership and success. As a student in Manufacturing Engineering, one will learn  product design and innovation using cutting edge  3-D modeling tools and  computers,  control the high-tech machine tools including robotics that make the product, apply system theory, quality control and optimization  to manage the production and service system, and  compete in  the global environment. Industrial Requirements: A focus on Capital budgeting, deterministic investment analysis, probabilistic engineering economy, manufacturing cost models, utility theory, and computer applications to engineering economy. Industrial Requirements: Design of tooling for various manufacturing processes such as plastic injection, metal casting, stamping, forming, etc. Material properties, tolerances, cost, and tool interchangeability are covered. Industrial Requirements: To understand the modern concepts of using computers for manufacturing, including the theory of computer numerical control (CNC) and direct numerical control (DNC), CNC milling, and CNC tuning and computer-aided process design. Industrial Requirements: The emphasis of the course is on continuous quality improvement. To possess knowledge on process, capability analysis, philosophies of quality management, advanced statistical process control, quality costs, and automated quality control. Industrial Requirements: Ability to obtain and understand client requirements, and design a system with enough safety measures, component, or process related to industrial engineering to meet client requirements. Industrial Requirements: To understand the theoretical and practical aspects of the implications that the manufacturing process has on the design activities Issues such as rapid prototyping, tolerance, geometric modeling, capabilities of manufacturing processes,

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