CHAPTER 6. The chip breaker is not used in milling tools

CHAPTER 6. In broaching, the feed motion is performed by the workpiece

CHAPTER 6. In broaching, the workpiece performs the setup motion

CHAPTER 6. Broaching is suitable for the production of variable section shafts

CHAPTER 6. The milling tool does not have a chip breaker

CHAPTER 6. The tap is used to create small threads

CHAPTER 6. In tutning, the cutting speed is possessed by the workpiece

CHAPTER 6. Saw cutting with costant feed force is better than costant speed

CHAPTER 6. The number of broaches that can be performed depends on the number of calibrating teeth in the broach

CHAPTER 6. The face of the cutting tool is also called the flank

CHAPTER 6. The face corresponds to the sliding plane

CHAPTER 6. For roughing operations, tools with a gamma angle close to zero are chosen

CHAPTER 6. In broaching, the cutting motion is performed by the tool

CHAPTER 6. In turning, the setup motion is performed by the workpiece

CHAPTER 6. The problem of continuous chip is present in milling

CHAPTER 6. In order to bring a hole into tolerance, it is necessary to carry out burining

CHAPTER 6. In chip removal processes, the cutting pressure is calculated as tu product of the cutting force by the undeformed chip thickness

CHAPTER 6. Roughness is measured orthogonally to direction of the grooves

CHAPTER 6. In electrochemical milling, distilled water is used

CHAPTER 6. In chip removal processes, cutting pressure is inversely proportional to the hardness of the material

CHAPTER 6. The reciprocating saw has lower productivity compared to the band saw

CHAPTER 6. Distilled water is used as ma electrolyte fluid in electrochemical processes

CHAPTER 6. Countersinking is used to bring the hole within tolerance

CHAPTER 6. In drilling, the tool performs the cutting motion

CHAPTER 6. CNC machining times are longer than traditional machining times

CHAPTER 6. The flank of the chip removal tool is called the front clearence

CHAPTER 6. In transverse turning, it is not possible to maintain both cutting speed and feed rate costant

CHAPTER 6. The productivity of broaching is generally higher compared to other chip removal processes

CHAPTER 6. The tool change system of a modern machine tool reduces active machining times

CHAPTER 6. In turning, the more radius of a roughing tool is about 0.2 mm

CHAPTER 6. In chip removal processes, the adhesion zone is where the most heat is generated

CHAPTER 6. Alpha angle is the front clearance angle

CHAPTER 6. Theoretical roughness is greater than approximated roughness

CHAPTER 6. The chip reduces in size after being removed

CHAPTER 6. The cutting speeds in chip removal processes are lower than on grinding

CHAPTER 6. In sawing, chip thickness increase with increasing tooth pitch

CHAPTER 6. Centering is not always necessary

CHAPTER 6. A round insert has 0 cutting edges

CHAPTER 6. In drilling,the feed forces and cutting torques are very high even for small operations

CHAPTER 6. In broaching, the tool performs both the cutting and fed motion

CHAPTER 6. In milling, the cutting width is generally less than the diameter of the cutter

CHAPTER 6. In reaming, it is advisable not to have any pay between the tool and the workpiece

CHAPTER 6. Tool life increase with increasing cutting speed

CHAPTER 6. Truncation force is proportional to the perimeter

CHAPTER 6. Absolute roughness is inversely proportional to the tool’s nose radius

CHAPTER 6. Shaving is applied in thin sheets

CHAPTER 6. The side of the cutting tool is also called the face plate

CHAPTER 6. Finishing turning is suitable for producing parts with good surface roughness without further working

CHAPTER 6. If the cutting parameters and process conditions are fixed, the tool life has almost no dispersion

CHAPTER 6. The front clearance angle has the function of reducing tool heeling

CHAPTER 6. Both internal and external gear wheels can be generated using the hob milling process

CHAPTER 6. Swaging can also be performed with manual tools

CHAPTER 6. For roughing operations, tools with a rake angle gamma close to zero are chosen

CHAPTER 6. The electrochemical milling process is very difficult to automate

CHAPTER 6. Roughing milling is performed on a machine called drill

CHAPTER 6. Gear hobbing is a suitable process for producing both internal and external gears, with straight or helical teeth

CHAPTER 6. A traditional machine tool requires better tools than a CNC machine

CHAPTER 6. The flank of the chip removal tool is also called the back clearance

CHAPTER 6. Pluge grinding is applied to planes

CHAPTER 6. The main function of the electrode coating in coated elctrode welding is to protect the electrode from oxidation

CHAPTER 6. Perioheral concordance milling ensure a better surface finish

CHAPTER 6. In turning, the setup motion is performed by the workpiece

CHAPTER 6. Oxidation wear occurs mainly at low cutting speeds

CHAPTER 6. Band saw preferred over circular saw

CHAPTER 6. Electrochemical milling is normally performed on a machine called a rolling mill

CHAPTER 6. A San is a Tool with undefined geometry

CHAPTER 6. In turning the approach Motion is performed by the workpiece

CHAPTER 6. Enlarging a hole requires that the material of the part hai good thermwl conductivity

CHAPTER 6. Rough milling is suitable for producing parts with bitter mechanical properties comparse to other competiting processes

CHAPTER 6. Drilling of solid material is normally performed on a machine calle bending machine

CHAPTER 6. The flank of the tool is also called the front face