Sandvik Coromant Heat resistant super alloys User Manual

Page 3

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Contents

Introduction

2

1. Heat resistant super alloys – HRSA

3

Alloy groups

4

Machinability/raw material
condition

5

Common component types

7

Coolant requirement

8

2. Turning of nickel-based materials

9

Machining stages

9

Typical wear mechanisms

11

Insert shape selection

13

Cutting tool materials

21

Ceramic insert grades

22

Carbide insert grades

26

SCL – predictive machining

28

Geometries and chip breaking

31

Recommended starting choices

34

Tailor Made

36

Engineered solutions

37

Component/feature solutions

42

3. Turning of cobalt-based materials

51

Process considerations

52

Typical wear recommendations

53

Insert shape selection

54

Optimized tools for internal machining 55
 Recommended starting choices

57

Carbide insert grades

58

Engineered solution

58

Component/feature solutions

59

4. Milling

60

Production planning process

61

Typical components

61

Machining strategy

62

Cutter concept

64

Milling process with indexable inserts 65
 Face milling with carbide inserts

68

End milling/90 degree approach

77

Ceramic milling

82

Solid carbide – CoroMill Plura in
HRSA machining

88

Exchangeable-head CoroMill 316
in HRSA machining

97

Component/feature based solutions

98

Recommended start cutting data

102

5. Hole making

104

Hole types and hole making methods 104
 Tools for hole making

106

Circular ramping from solid

107

Circular interpolation of existing holes 108
 Back chamfering/deburring

109

Thread milling

110

Recommended start cutting data

112

Component/feature solutions

114

6. Technical data

118

7. Material cross-reference list

120

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