TY - CHAP

T1 - Machining Processes

AU - Karpuschewski, Bernhard

AU - Byrne, Gerry

AU - Denkena, Berend

AU - Oliveira, João

AU - Vereschaka, Anatoly

PY - 2021

Y1 - 2021

N2 - In this handbook, machining processes are seen in the first place as material removal processes. Any surplus material is removed from a solid object (workpiece) either in the form of small pieces (e. g., chips) or by chipless processes based on e. g., evaporation. To achieve this kind of material removal different tools are mandatory, thus generating surfaces by relative motions between the workpiece and tool provided by the respective machine tool. The following chapter is structured in three major subgroups: Cutting with geometrically well-defined tool edges These processes are widely used for material removal in any kind of industrial application. The most prominent processes are turning, drilling, and milling, but also less prominent processes like planning and shaping, broaching, and sawing will be discussed. Cutting with geometrically undefined tool edges The tools of this group of processes cannot be described with simple geometrical quantities, because they consist of thousands of small abrasive grains in a bonded structure or as loose grains, but they still generate chips during material removal. The most prominent processes are grinding, honing, lapping, and jet-based applications. Nonconventional machining (chipless) processes In chipless machining material, particles are removed from a solid object by nonmechanical means, i. e., by electrical discharges, electrochemical machining, or high-energy beams (laser or electron beams).

AB - In this handbook, machining processes are seen in the first place as material removal processes. Any surplus material is removed from a solid object (workpiece) either in the form of small pieces (e. g., chips) or by chipless processes based on e. g., evaporation. To achieve this kind of material removal different tools are mandatory, thus generating surfaces by relative motions between the workpiece and tool provided by the respective machine tool. The following chapter is structured in three major subgroups: Cutting with geometrically well-defined tool edges These processes are widely used for material removal in any kind of industrial application. The most prominent processes are turning, drilling, and milling, but also less prominent processes like planning and shaping, broaching, and sawing will be discussed. Cutting with geometrically undefined tool edges The tools of this group of processes cannot be described with simple geometrical quantities, because they consist of thousands of small abrasive grains in a bonded structure or as loose grains, but they still generate chips during material removal. The most prominent processes are grinding, honing, lapping, and jet-based applications. Nonconventional machining (chipless) processes In chipless machining material, particles are removed from a solid object by nonmechanical means, i. e., by electrical discharges, electrochemical machining, or high-energy beams (laser or electron beams).

UR - http://www.scopus.com/inward/record.url?scp=85104155067&partnerID=8YFLogxK

U2 - 10.1007/978-3-030-47035-7_12

DO - 10.1007/978-3-030-47035-7_12

M3 - Contribution to book/anthology

AN - SCOPUS:85104155067

SN - 978-3-030-47034-0

T3 - Springer Handbooks

SP - 409

EP - 460

BT - Springer Handbook of Mechanical Engineering

A2 - Grote, Karl-Heinrich

A2 - Hefazi, Hamid

PB - Springer Nature Switzerland AG

ER -