Singh Effect of tool pin profile on microstructure and mechanical properties of AL6063 in Friction stir processing

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CHAPTER 3
EXPERIMENTATION
Friction stir processing (FSP) was carried out using a CNC vertical milling machine set up fitted with a specially designed FSP tool which stirred in vertical axis or perpendicular to workpiece. The base metal (i.e. Al 6063) was fixed in a specially designed fixture that was held on the bed of milling machine. The FSP tool was rotated on the surface of base material. The processed samples was characterized for optical microscopy, micro hardness and impact test. The results were also obtained for base metal (6063Al) for comparison. The worn tracks of the samples were investigated under scanning electron microscope. The details of various equipments, techniques and procedures used in the study are as following.
3.1. Process parameters and procedure All the parameters kept constant during process for all four tool profile as given table 3.1. Table 3.2 show plate dimensions used for FSP with each tool pin profile.
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3.3 Equipments
3.3.1 CNC vertical milling machine
CNC vertical milling machine used for friction stir processing of aluminium 6063 sample plates. After selection of the entire machine parameters next step is experimentation. So for FSP CNC vertical milling machine selected which having pneumatic tool holder. In the CNC vertical milling the spindle axis is vertically oriented. Milling cutters are held in the spindle and rotate on its axis, position of tool is also vertical which is held in pneumatic chuck. The spindle can generally be extended (or the table can be raised/lowered, giving the same effect), allowing plunge cuts and drilling. There are two subcategories of vertical mills: the bed mill and the turret mill. The Operating system of such machines is a closed loop system and functions on feedback. These machines have developed from the basic NC (NUMERIC CONTROL) machines. A computerized form of NC machines is known as CNC machines. A set of instructions (called a program) is used to guide the machine for desired operations.
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Also, various other codes are used. A CNC machine is operated by a single operator called a programmer. This machine is capable of performing various operations automatically and economically.
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While reading this article, along with collecting other information about milling machines, it is crucial for one to understand the computerized form of such machines. In tool holding mechanism, improvement on CAT Tooling is BT Tooling, which looks similar and can easily be confused with CAT tooling. Like CAT Tooling, BT Tooling comes in a range of sizes and uses the same body taper. However, BT tooling is symmetrical about the spindle axis, which CAT tooling is not. This gives BT tooling greater stability and balance at high speeds. One other subtle difference between these two tool holders is the thread used to hold the pull stud. CAT Tooling is all Imperial thread and BT Tooling is all Metric thread. Note that this affects the pull stud only, it does not affect the tool that they can hold, both types of tooling are sold to accept both Imperial and metric sized tools.
3.3.2 Tool holder
Basic function of tool holder is to holds the tool in desired axis in CNC VMC machine. In experimentations pneumatic tool was used. An improvement on mechanical Tooling is pneumatic Tooling, which looks similar and can easily be confused with pneumatic tooling. Like mechanical tooling, pneumatic tooling comes in a range of sizes and uses the same body taper. However, tooling is symmetrical about the spindle axis. This gives tooling greater stability and balance at high speeds. In these experimentations pneumatic tooling used which save much time than mechanical tooling during changing of tools. Following diagram shows simple tool holder used for holding the cylindrical tools.
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3.3.3 Fixture The fixture for holding the base plate, while carrying out FSP was designed in house and fabricated at Dhiman Industries, Bathinda. The fixture consisted of a rectangular base of dimensions 400mm x 200mm x 20mm. Three numbers of square rods having X-section (25mm x25mm) and length 300mm were machined to an accuracy of 5µm. Out of these square rods, two rods were drilled with counter sunk holes (4 Nos.) to adjust bolts of size M10.
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These two rods were fixed at the ends of rectangular base plate. The Sq. rod 2 was also consisted of 3-addition drilled holed consisting of M12 internal threads to accommodate hexagonal bolts of size M12. The third square rod was placed between Sq. rods 1 and 2 and was movable with the help of hexagonal bolts tightened to square rod 2. The base plate to be friction stir process was held tight between square rods 1 and 3. The base plate was also tightened to the rectangular base plate with the help of 2 MS strips (S1 and S2) each screwed to the rectangular base plate with the help of hexagonal bolts (M8). Fixture show excellent clamping of 150*100*6mm dimension plate as shown in following diagrams. First diagram show fixture component an second diagram show clamping of plate. This fixture can holds the rectangular and square plate specimens very well and avoid the any movement of plate with respect to machine table.