Optimum Technologies, Technologic Systems and Materials in the Machines Building Field
Cuprins
01.
OPTIMUM TECHNOLOGIES OPTIMIZATION OF TAILORED WELDED BLANK PRODUCT DESIGN
02.
STUDY OF THE INFLUENCE OF RESIDUAL STRESS DISTRIBUTION ON SPRINGBACK IN SHEET METAL FORMING
03.
DESIGN EXPERIMENT FOR SPRINGBACK CONTROL IN U-BENDING OF SHEET METAL
04.
SUMMARY OF SALIENT POINTS IN SUCCESSFUL CONTROL
05.
VARIATION OF SPRINGBACK PARAMETERS AS A FUNCTION OF BLANKHOLDER FORCE
06.
CONDITIONS AND STEPS NEEDED IN THE APPLICATION OF AN OPTIMIZATION SYSTEM BASED ON TAGUCHI’S METHOD FOR THE COMPENSATION OF ERRORS GENERATED BY SPRINGBACK IN THE CASE OF DRAW PARTS MADE FROM METAL SHEETS
07.
EXPERIMENTAL AND SIMULATION ANALYSIS OF SPRINGBACK IN THE CASE OF A DRAWN HALF-RIM MADE USING TOOLS CORRECTED BY APPLYING THE TAGUCHI METHOD OF OPTIMIZATION
08.
EXPERIMENTAL AND SIMULATION ANALYSIS OF SPRINGBACK IN THE CASE OF A CONICAL DRAW LIED MADE USING TOOLS CORRECTED BY APPLYING THE TAGUCHI METHOD OF OPTIMIZATION
09.
APPLICATION OF THE TAGUCHI METHOD FOR THE COMPENSATION OF ERRORS DETERMINED BY SPRINGBACK IN THE CASE OF A DRAW HALF-RIM WITH STIFFNESS CHANNELS MADE FROM METAL SHEETS
10.
PROCESS AND TOOLS OPTIMIZATION FOR RECTANGULAR PART FORMING OF TAILOR WELDED BLANKS
11.
INVESTIGATION OF THE ROLLING DIRECTION INFLUENCE ON SPRINGBACK EFFECT O A U-SHAPE PART MANUFACTURED BY TAILOR WELDED STRIPES
12.
STUDY OF THE SPRINGBACK PHENOMENON IN THE CASE OF DEEP DRAWING OF HEMISPHERICAL PARTS
13.
INFLUENCE OF FRICTION CONDITIONS ON SPRINGBACK IN HEMISPHERICAL DEEP DRAWING OF SHEET METALS
14.
PROJECT PLANNING AND DESIGN IN MANUFACTURING INDUSTRY
15.
ASPECTS ABOUT COMMUNICATION IN PROJECT MANAGEMENT
16.
PROJECT MANAGEMENT TOOLS AND PROCESSES
17.
THE NEO-CLASSICAL MODEL OF TECHNOLOGICAL INVESTMENTS
18.
CAUSE AND EFFECT OF SPRINGBACK PHENOMENON OF THE CYLINDRICAL DRAWN PARTS
19.
TAGUCHI METHOD APPLIED IN CASE OF MATHEMATICAL MODELING OF ROUGHNESS FOR FRONTAL MILLING PROCESS
20.
MATHEMATICAL APPROACH OF TOOL WEARING USING TAGUCHI METHOD IN CASE OF FRONTAL MILLING
21.
CONSIDERATIONS CONCERNING THE INFLUENCE OF THE CURVILINEAR EDGE OF RADIUS R ON THE ROUGHNESS OF THE SURFACES MACHINED BY FINISHING MILLING OF CAST IRON
22.
INTERACTIVE DEPENDENCE OF PROCESSED SURFACE ROUGHNESS PARAMETERS FOR TURNING OF THE STEEL C60 BY MIXED CERAMIC CUTTING TOOLS
23.