Technology 23. Machine Tool Performance—Cutting tool geometry, cutting tool materials, coolants, cutting forces, surface finishes and tool efficiency studied for the fundamental machine tool operations. Two lectures, three laboratories. Prerequisites: Manufacturing Engineering Technology 22, Technical Education 17. S (5). - Seager 32. Inspection Methods—Basic principles and application of surface plate inspection, including care and use of measuring instruments. One lecture and two laboratories. W (3). Robertson, Crookston 63. Tool and Gage Inspection—Inspection and calibration of inspection tools and gages; basic principles of gaging. Prerequisite: Manufacturing Engineering Technology 32. One lecture and to laboratories. W (3) Randall 66. Physical Metallurgy—Principles of physical properties, composition, constituents, heat treatment, and testing of metals. Prerequisite: Chemistry 5. Three lectures, one laboratory. S (4). Wallentine 70. Manuacturing Processes—Fundamental principles and processes of foundry, die casting, forming, fastening, molding, puftch press forming, electrical and mechanical assembly, powder metallurgy and the possibility of their application to industrial products. Emphasis also to be given to current developments such as micro wire elding, the laser beam and electric micromineaturization. Three lectures. S (3). Randall 101, 102. Tool Design I, II—Design and construction of special tools, gages, jigs, fixtures and dies and their proper application to produce interchangible parts. Prerequisites: Manufacturing Engineering Technology 18, 23, 66, 70; Technical Education 18 and Industrial Drafting 51, Physics 51, 52, 53. Two lectures, three labs. W S (5). Robertson 127. Machine Tool Processes for Technicians—Machining operations and principles in the use of machine tools. One lecture, two laboratories. W S (3). Wallentine 170. Statistical Quality Control—Application of statistical techniques as applied to quality control charts in manufacturing; statistical approach to acceptance sampling. Prerequisite: Technical Education 17. Four lectures. W (4). Randall 171. Production and Inventory Control—Forecasting; control of materials; the planning, scheduling, routing, dispatching functions of production control. Prerequisite: Technical Ed. 17. Three lectures. A (3). Robertson 172. Process Analysis—Analysis of product to develop and coordinate a feasible and economical plan of manufacturing. 272 Technology To include the preparation of processing documents and the selection of tooling and equipment needed to carry out the plan. Prrequisites: Mfg. Eng. Tech. 102, Ind. Eng. Tech. 142. Four lectures. A (4). Randall 173. Cost Estimating—Designed to train people to make satisfactory estimates of various manufacturing processes. Prerequisite: Ind. Eng. Tech. 142; Mfg. Eng. Tech. 102, 172; Technical Ed. 17. Three lectures. W (3). Randall 176. Supervision Principles—Understanding of basic company, supervisor and operator objectives and responsibilities, and their relationships to each other; case problem approach. Prerequisite: Psychology 1. Three lectures. W (3). Robertson 177. Production Management—The fundamental areas of methods, work measurement, production planning, inventory control, plant layout, quality control, and production costs are examined to ascertain their relationship to each other and to make practical application in solving production problems. Prerequisites: Mfg. Eng. Tech. 173; Ind. Eng. Tech. 142. Four lectures. S (4). Randall 178. Value Engineering, Philosophies and Concepts—The reduction or avoidance of costs through value analysis techniques. Prerequisites: Mfg. Eng. Eech. 102, 172; Ind. Eng. Tech. 142. Three lectures. W (3). Randall 179. Numerical Control in Manufacturing—Numerical control implications and advantage, functions, manual programming, computer applications, processing and information storage. Prerequisite: Mfg. Eng. Tech. 102. A (3). Seager 185, 186. Manufacturing Planning I, II—The analysis of a specified manufacturing product for the purpose of developing the total manufacturing plan from the design phase to the finished product. Prerequisite: Consent of instructor. One lecture and two laboratories. W S (3). Seager 191. Seminar in Manufacturing—Directed studies in the application of new materials and new processing concepts to manufacturing and study of current production problems. Prerequisite: Consent of Instructor. Conferences as needed. S (2). Randall 273