APPLICATIONS TO PROGRAMS INFORMATICS ANSYS-CATIA FOR THE PISTON GROUPS AND THE PROCESSING BY ELECTRICAL EROSION. Part 2.

APPLICATIONS TO PROGRAMS INFORMATICS ANSYS-CATIA FOR THE PISTON GROUPS AND THE PROCESSING BY ELECTRICAL EROSION. Part 2. IOAN BADIU 1, MARCEL S. POPA 2 1 Technical University of Cluj-Napoca, ROMANIA, e-mail: popa.marcel@tcm.utcluj.ro 2 Technical University of Cluj-Napoca, ROMANIA, e-mail: badiu.ioan07@yaho.com Abstract: A piston machine body, which has a reciprocating motion in a cylinder and which is designed to close a space of variable volume of the cylinder, filled with air or a fuel mixture under pressure fluid. The piston is used for converting internal energy into mechanical work on cars engines, or vice versa, generating machines. In the first case the piston is driven by the internal energy, and in the second he acts on air or fluid (compressor, hydraulic motor). Several producers of oil engines use injectors for each the piston in part to facilitate their cooling. The injectors are mounted on the engine block and the oil injected into an opening located in the piston head. Keywords: pistons, engine oil injectors, cooling, heat accumulated, circular holes,edm. 1.INTRODUCTION Usually the piston is coupled to a crank mechanism, which converts the rectilinear motion in a circular motion (the engine) and vice versa (on pump). The piston is used as a constructive element in the implementation of piston pumps, which is similar in principle of operation with the compressor. The pistons are made mostly of cast iron or metal alloy lightweight, heatstable properties.on machines that heat distribution is through the windows, the piston has the function to open or close them.several producers of oil engines use injectors for each the piston in part to facilitate their cooling. The injectors are mounted on the engine block and the oil injected into an opening located in the piston head. Figure 1: The oil Injector the piston Oil injected into the piston head is discharged through circular holes thus eliminating heat in the piston. 98

2. THE MACHINES PROCESSING ELECTRICAL EROSION Figure 4: The use of expert systems. 2.2.FEATURES 1.Build in Expert System. 2.The EDM parameter can be changed according to the Auto program setting. Figure 2: Electrical erosion processing machine ZNC 50. 2.1.EXPERT SYSTEMS USED TO PROCESS THE PISTONS 3.Automatic 14-step fine machining in single pass. 4.Equipped with high precision Heidenhain 1μmălinearăencoder. 5.Chinese/ English; Metric/ Inch unit can be displayed on screen. 6.60 sets working coordinate setting. 7.Automatic Z axis calibration and positioning. 8.Be able to machining large area with stable and slow retracting of residue. 9.High precision ball screw for delicate transmission. 10.Be able to machining deep hole with retracting of residue efficiently. Figure 3: The machine processed interface electrical erosion. 11.Unify operation screen interface is easy to be understood. 12.Be able to indicate electrode wearing, surface toughness, sparking gap of electrode. 99

13.0.5A circuit system for finest finish. 2.4.MACHINE LAYOUT. 14.Multiple fire-proof detection system. 15.Double erect type filtration system separates carbon residue more efficiently. 2.3.SPECIFICATIONS. SPECIFICATIONS ZNC - 50 Work Tank Dimensions Work Table Dimensions XYZ Axis Travel Distance from Main Axis to Table Auxiliary Travel of Z Axis Max. Workpiece Weight Max. Electrode Weight Max. Capacity of Dielectric Max. Machining Speed 940 x 530 x 350 mm 630 x 360 mm 350 x 250 x 200 mm 520 mm 200 mm 500 kg 50 kg 300 liters 420 mm 3 / min Min. Wear Rate < 0.1 % Best Surface Finish Max. Output Current Input Power Machine Dimensions L x W x H Total Weight of Machine <ăraă0.18ăμmă 50 A 3.3 kva 140 x 138 x 220 cm 1,375 kg Figure 5: Electrical erosion machine dimensions. Figure 6: Electrical erosion machine dimensions. 3. THE GROUP THE PISTON 100 For a better understanding of the distribution of temperatures on the body of a the piston in an engine design phase, graphic stations is done using finite element analysis. Piston,

three-dimensional model is undergoing a heat source, resulting the temperatures distribution: Figure 8: The piston Thermoshield. Figure 7: The temperatures distribution in the body of the piston. 1. 267 C 2. 235 C 3. 226 C 4. 218 C 5. 191 C In conclusion to limit the thermal load of a the piston engine should operate at low engine speeds and loads more. 3.1. ADVANCED TECHNOLOGIES FOR APPLIED TO THE PISTONS. 3.1.1. THERMAL PROTECTION OF THE PISTON OF THE HEAD ( Federal Mogul Thermoshield). Since 2006 Federal Mogul pistons started marketing Thermoshield, for high power motors. The innovation consists in coating the piston of the head with a ceramic coating to withstand temperatures up to 1093 C with durability compared with conventional pistons The method consists of a special electroless plating to the surface of the piston converted into a complex ceramic high thermal and mechanical resistance. This technology can be applied and fire channel segment, thus avoiding microsudurile between the piston and segment. 3.1.2. OF STEEL THE PISTONS (Federal Mogul -Monosteel). In 2006, during a ceremony held on April 3rd in Detroit, Federal Mogul company receives PACE Award for innovation, technological advancement and business performance. This award is given to suppliers in the industry that produce, process or offering automobile manufacturers. Figure 9: The piston Monosteel. 101

4. APPLICATIONS PROGRAMS OF INFORMATICS FOR PROCESSING EROSION ELECTRICAL TO PISTON. 4.1. APPLICATIONS PROGRAMS OF INFORMATICS ANSYS FOR PROCESSING EROSION ELECTRICAL TO PISTON. Figure 12: The graphics of the piston with Figure 10: The graphics of the piston with Figure 13: The graphics of the piston with Figure 11: The graphics of the piston with 102 Figure 14: The graphics of the piston with

Figure 15: The graphics of the piston with Figure 18: The graphics of the piston with Figure 16: The graphics of the piston with Figure 19: The graphics of the piston with 4.2.APPLICATIONS PROGRAMS OF INFORMATICS CATIA FOR PROCESSING EROSION ELECTRICAL TO PISTON. Figure 17: The graphics of the piston with Figure 20: The programs informatics for 103

Figure 21: The programs informatics for Figure 24: The programs informatics for Figure 22: The programs informatics for Figure 25: The programs informatics for Figure 23: The programs informatics for Figure 26: The programs informatics for 104

5.THE EXPERIMENTAL RESULTS PROCESSING ELECTRICAL EROSION Figure 31: The shape 2D graphics parameters electrical erosion. Figure 27: The table electrical erosion Figure 32: The table electrical erosion Figure 28: The shape 3D graphics parameters electrical erosion. Figure 33: The shape 3D graphics parameters electrical erosion. Figure 29: The values of parameters electric erosion in a graphic form 3D. Figure 30: The table electrical erosion Figure 34: The values of parameters electric erosion in a graphic form 3D. 105

Figure 35: The table electrical erosion Figure 39: The table electrical erosion Figure 36: The values of parameters electric erosion in a graphic form 2D. Figure 40: Points that determines the parameters The electrical erosion. Figure 37: The table electrical erosion Figure 41: Straight lines The electrical parameters and equations erosion 2D shapes. Figure 38: The values of parameters electric erosion in a graphic form 3D. 106 Figure 42: The straight lines and The electrical erosion parameters such equations.

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