Simulacija procesa obrade u SolidCAM-uFull description
it's used for b.c.s. final year project....
SOLIDCAM - THE LEADERS IN INTEGRATED CAM
The complete integrated Manufacturing Solution inside SolidWorks
SOLIDCAM 2010 TRAINING TR AINING COURSES COURSES
www.solidcam.com
www.solidcam.com
The Leaders in Integrated CAM
SOLIDWORKS BASIC COURSE SOLIDCAM BASIC COURSE: 2.5D MILLING ADVANCED SOLIDCAM TRAINING COURSE HSM TRAINING COURSE HSS TRAINING COURSE SIM. 5-AXIS TRAINING COURSE TURNING TRAINING COURSE
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SOLIDWORKS BASIC COURSE Length: 3 days Prerequisites: •
Lesson 1: SolidWorks: Basics and user interace 1. What is SolidWorks 2. Creating/Opening les 3. SolidWorks user interface 4. Modeling in SolidWorks
SOLIDCAM BASIC COURSE: 2.5D MILLING Length: 5 days Prerequisites: •
Lesson 1: SolidCAM Part Defnition 1. CAM-Part denition process 2. CAM-Part Data 3. CNC-controllers 4. Coordinate Systems 5. Stock Model 6. Target Model
ADVANCED SOLIDCAM TRAINING COURSE Length: 1 day Prerequisites: •
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Lesson 1: Introduction and Basic concepts 1. Machining Process Overview 2. Parameterization of operations
Lesson 2: Machining Process defnition 1. Machining Process Table denition 2. Machining Process Table Manager 3. Machining Process denition 4. Machining Process Dene Manager 5. Parameters and Expressions 6. SolidCAM standard functions
Lesson 3: Machining Process Usage 1. Inserting Machining Processes 2. Machining Process Insert Manager 3. Dening the geometry 4. Assigning values to variables
Lesson 4: Advanced Machining Process 1. Assigning pictures to Machining Process 2. Assigning description to Machining Process 3. Machining Process types
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4. Adding Machining Processes into Operations menu
Lesson 5: Standardization with Machining Processes 1. Creating Default Sets 2. Default Sets management and customization
Lesson 6: Machining Processes or automation o Milling tasks 1. Machining Process for Prole Machining 2. Machining Process for the Pocket Machining
Lesson 7: Defning Machining Process with existing operations 1. Dene the operation group 2. Operation groups manipulations 3. Adding operations group to the Machining Process Table
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HSM TRAINING COURSE Length: 2 days Prerequisites: •
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Lesson 1: Introduction and Basic concepts 1. Start HSM Operation 2. SolidCAM HSM Operation overview 3. Parameters and values
Lesson 9: HSM Finishing (continue) 1. Prismatic Part Machining 2. Combine Constant Z with – Horizontal 3. Combine Constant Z with – Linear 4. Combine Constant Z with – 3D Constant Step Over 5. Combine Constant Z with – 3D Corner Offset
Lesson 10: Advanced HSM options 1. Holder Clearance within HSM roughing 2. Taper tool use
Lesson 1: CNC-Machines, kinematics and architecture 1. Head/Head CNC-Machines 2. Aerospace parts machining with Head-Head CNC-Machines 3. Table/Head CNC-Machines 4. Revolution parts machining with Table-Head CNC-Machines 5. Table/Table CNC-Machines 6. Die & Mold parts machining with Table-Table CNC-Machines
Lesson 4: Coordinate Systems 1. Main Work Coordinate System 2. Part setup
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knowledge
The Leaders in Integrated CAM
Lesson 5: Tool path output 1. Gcode in CAM-Part coordinates 2. RTCP – Rotate Tool Center Point 3. Gcode in absolute coordinates of CNC-Machine
Lesson 6: Tool defnition 1. Tool parameters denition 2. Tool contact point 3. Tool tip 4. Feed/Spin denition
Lesson 7: Tool orientation 1. Tool orientation vector, unit vector 2. Surface normal at contact point 3. Surface tangent at contact point in cutting direction
Lesson 10: SolidCAM Sim. 5-Axis machining strategies 1. Strategies overview: Swarng and Tracing 2. Parallel cuts 3. Parallel to surface
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SIM. 5-AXIS TRAINING COURSE 4. Parallel to curve 5. Orthogonal to a curve 6. Engraving (Projected contour) 7. Morph between two curves 8. Morph between two surfaces
Lesson 11: Machining area control 1. Machining of whole surface 2. Machining of part of surface
Lesson 12: Tool path arrangement 1. Cut areas order: lanes and regions 2. Zigzag machining 3. One way machining 4. Spiral machining 5. Cutting order 6. Start point
Lesson 13: Tool path precision 1. Cutting tolerance 2. Tool position output frequency 3. Contact point control 4. Step over / Scallop 5. Maximum angle step
Lesson 14: Tool tilting overview 1. Main side tilt angle 2. Cutting direction tilt angle 3. Resulting tool axis orientation 4. Lag angle
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The Leaders in Integrated CAM
Lesson 15: Tool axis control 1. Main Side Tilt Angle denition 2. Cutting Direction Tilt Angle denition a. Following surface parametric lines b. Orthogonal to cut direction vector c. Interpolating through tilting lines d. Main spindle direction e. User dened vector 3. Resulting Tool Axis Orientation a. Normal to surface b. Fixed angle to axis c. Interpolation between tilting lines d. Through point e. Through curve 4. 4 and 4+1 tool axis orientation
SIM. 5-AXIS TRAINING COURSE Lesson 18: Gouge checking 1. Gouge checking overview 2. Gouging between tool assembly components and surfaces 3. Check surfaces 4. Gouging avoidance strategies a. Retraction along tool axis b. Moving tool away c. Tilting tool away d. Leaving out gouging points e. Stopping tool path calculation 5. Using gouging in tool path manipulation
Lesson 5: Indexial Milling on Mill-Turn CNC-Machines 1. Indexial Milling on 4-Axis CNC-Machines 2. Indexial Milling on 5-Axis CNC-Machines
Lesson 6: Back Spindle Usage on Mill-Turn CNC-Machines 1. Back Spindle use overview 2. Operation with / without cut 3. Operation sequences 4. Main and Back Spindle denition 5. Back Spindle sub-operations 6. Connecting Back Spindle 7. Move Back sub-operation 8. Transfer sub-operation