ABRASIVE JET MACHINE
3,460 views
31 slides
Mar 09, 2015
Slide 1 of 31
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
About This Presentation
THIS PRESENTATION IS ABOUT ABRASIVE JET MACHINE USED IN MACHINING PROCESS.
Slide Content
Pallavi Priyambada Badajena Guided By Debashish Bose Rajendra Kumar Mohanty Deepak Kumar Mohanty Lecturer Dillip Kumar Sahoo Dept.Of Mechanical Engg . Debesh Jena DESIGN AND MANUFACTURING OF ABRASIVE JET MACHINE
Introduction History Working Principle Diagram Equipments Process Parameters Process Characteristics Schematic Diagram Types of Abrasive Market Price Of Compressor Abrasive Particle Carrier Gas Nozzle And Jet Velocity Stand-off Distance Design Of AJM In Autocad Material Removal Rate Accuracy Surface Finish Application Advantages Disadvantages References Contents
There are many situations where the processes of manufacturing we’ve learned cannot produce the required dimensional accuracy and or surface finish. Fine finishes on ball/roller bearings, pistons, valves, gears, cams, etc. The best methods for producing such accuracy and finishes involve Abrasive Jet Machining Abrasive Jet Machining, It is an unconventional machining process based on mechanical energy for cutting, deburring and cleaning hard and brittle materials. Introduction
In 1979, Dr. Mohamed Hashish working at Flow Research, began researching methods to increase the cutting power of the abrasive jet so it could cut metals, and other hard materials. Dr. Hashish, regarded as the father of the abrasive jet, invented the process of adding abrasives to the plain abrasive jet. He used garnet abrasives, a material commonly used on sandpaper. With this method, the jet (containing abrasives) could cut virtually any material . History
Abrasive Jet Machining helps in removing materials from the brittle and heat sensitive materials by the application of high speed stream of abrasive particles. Micro-abrasive particles are propelled by inert gas at velocities of upto 300 m/sec, which result in erosion The material removal is due to erosive action of a high pressure jet . Working Principle
In particular drilling of holes of minimum diameter and maximum depth with greater accuracy and surface finish. Material is removed by fine abrasive particles, usually about 0.001 in (0.025 mm) in diameter. Pressures for the gas range from 25 to 130 psig (170–900 kPag ) and speeds can be as high as 300 m/s. Working Principle(Cont.)
Diagram
High pressure gas supply source Powder mixing chamber Control valve Nozzle Hood Exhaust systems A filter and water separator unit Equipments
The abrasive powder is held in a hopper, which is fed to the mixing chamber to mix with carrier gases. A jet stream of abrasive forms as the mixture comes out of the nozzle. At the working table a dust collection hood is provided, with a vacuum dust collector. Equipment(Cont.)
Nozzle Nozzle tips are made of hard materials like tungsten carbide or sapphire. Tungsten carbide nozzles give a life of about 15 hours with silicon carbide abrasive. The nozzle diameter is in the range of 0.13 to 1.25 mm Equipments(Cont.)
MRR, machining accuracy, surface roughness and nozzle wear are influenced by Size and distance of the nozzle. Composition, strength, size, and shape of abrasives Flow rate Composition, pressure, and velocity of the carrier gas . The mass flow rate of the gas decreases with an increase in the abrasive flow rate Process Parameters
Hence the mixing ratio increases and causes a decrease in the removal rate because of the decreasing energy available for material removal High nozzle pressures result in a greater removal rate, but the nozzle life is decreased Process Parameters(Cont.)
Process Characteristics
Schematic Diagram
Refractory-Powder Refractory-Loose Grit Sand Bonded Abrasives Coated Abrasives Blasting/Lapping/Polishing Abrasives Types Of Abrasive
The market price of air compressor vary over a wide range. Its value depends on the pressure with which the abrasive particle is to be bombarded on the workpiece (Glass). 20-25cfm – Rs70,000 10-12cfm – 35,000 Market Price Of Compressor
Material – Al 2 O 3 / SiC / glass beads Shape – irregular / spherical Size – 10 ~ 50 μm Mass flow rate – 2 ~ 20 gm/min Abrasive Particles
Composition – Air, CO 2 , N 2 Density – Air ~ 1.3 kg/m 3 Velocity – 500 ~ 700 m/s Pressure – 2 ~ 10 bar Flow rate – 5 ~ 30 lpm Carrier Gas
Material – WC / sapphire Diameter – (Internal) 0.2 ~ 0.8 mm Life – 10 ~ 300 hours Velocity – 100 ~ 300 m/s Nozzle And Jet Velocity
Stand-off distance – 0.5 ~ 5 mm Impingement Angle – 60 ~ 90 Stand-off Distance
Design Of AJM In Autocad
The metal removal rate depends upon The diameter of nozzle Composition of abrasive-gas mixture Jet pressure Hardness of abrasive particles and that of work material Particle size Velocity of jet Distance of work piece from the jet Material Removal Rate
Material Removal Rate(Cont)
In AJM, tolerances in the region of ±0.05 mm can be achieved for precision works. In normal production jobs tolerance up to 0.1mm are possible. The corner radius can be up to 0.1 mm, while taper is about 0.05 mm per 10 mm of depth. Accuracy
Surface finish in AJM is in the range of 0.4 to 1.2 mm depending upon the abrasive particle size. There is no heat affected zone, since the surface while machining remains at room temperature, as the carrier gas acts as the coolant. The effect of impact on the surface is less than 2 μm Surface Finish
AJM can be used conveniently for fragile materials like glass. Its applications include removing oxides from metal surfaces, deburring , etching patterns, drilling and cutting of thin sections. The process is not suitable for cutting soft materials since the abrasive particles may get embedded into the soft material. Application
Cutting action is shock less. Ability to cut fragile and heat sensitive materials without damage. Ability to cut intricate hole shapes in materials of any hardness and brittleness. No variation due to surface irregularities and tool wear as in conventional machining. Low capital cost. AJM units are easy to operate and maintain Advantages
It is not suitable for mass material removal. It needs a dust control system. The abrasives may get embedded in softer material. The nozzle life is limited. The cutting motion is to be properly controlled. Disadvantages
Boothroyd , Geoffrey; Knight, Winston A. (1989), Fundamentals of machining and machine tools (2nd ed.), Marcel Dekker, pp. 478–479, Todd, Robert H.; Allen, Dell K.; Alting , Leo (1994), Manufacturing Processes Reference Guide , Industrial Press Inc., pp. 2–5, . Chastagner , Matthew W.; Shih, Albert J. (2007), " ABRASIVE JET MACHINING FOR EDGE GENERATION ", Transactions of NAMRI/SME 35 : 359–366 References
Tags
Categories
DesignDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 3,460
- Slides 31
- Favorites 5
- Age 3922 days
Related Slideshows
1
MGV Residential Design projects for different clients, including a New Mexico Adobe project-1-.pdf
mannyvesa
27 views
16
EUNITED_Advocacy and Public Engagement through Visual Media
GeorgeDiamandis11
32 views
31
DESIGN THINKINGGG PPT 2 TOPIC IDEATION.pptx
HibaZaidi2
26 views
36
DESIGN THINKING CHAPTER 1 PPTT PPT 1.pptx
HibaZaidi2
29 views
112
Hinduism and Its History - PowerPoint Slides.pptx
ConorMcCormack10
25 views
20
Service Attributes of Manufactured Parts.pptx
MustafaEnesKrmac
25 views