The Complete CAM Solution, With Revolutionary . - SolidWorks
The Complete CAM Solution,with revolutionary iMachining,fully Integrated in SOLIDWORKS ½½½½½½½½½½½½½½½½½½iMachining 2D and 3D2.5D MillingHSS – 3D High Speed Surface MachiningHSR & HSM – 3D Roughing & MachiningIndexial Multi-Axis MillingSimultaneous 5x MillingTurning and Advanced Mill-TurnMulti-Channel ConfigurationSolid Probe – Probing & Measuring
SolidCAM is the Complete, ‘Best-in-Class’ CAM Suite for ProfitableCNC-Programming in SOLIDWORKSMajor Benefits of Using SolidCAM in SOLIDWORKS:2]]SOLIDWORKS look and feel through seamlesssingle window integration – with full support formodern 4K displays]]Full associativity: toolpaths automatically updatewhen the SOLIDWORKS model changes]]SolidCAM works in the SOLIDWORKS assembly modeto define fixtures, tooling and vices]]SolidCAM SOLIDWORKS is scalable with packagesfor all CNC machine types and applications. Theintegrated CAD/CAM-Solution SOLIDWORKS SolidCAM is available at a competitive bundle-priceSolidCAM, including the revolutionary iMachining, isseamlessly integrated in SOLIDWORKS, with full toolpath associativity to the SOLIDWORKS model. Withthe single-window integration in SOLIDWORKS, allmachining operations can be defined, calculated andverified without leaving the parametric SOLIDWORKSassembly environment.All 2D and 3D geometries used for machining are fullyassociative to the SOLIDWORKS design model. If youmake any changes to your SOLIDWORKS model, all ofyour CAM operations will be automatically updated.
SolidCAM – The LeadingIntegrated CAM Solutionin SOLIDWORKSCustomers rave about SolidCAMintegrated in SOLIDWORKSYou Never Have to Leave theSOLIDWORKS Window!þþ This approach shortens the learning curve forprogrammers, offers greater geometry editingand manipulation power to manufacturingand provides a common tool for supportinginteraction between designers and machinists.”þþ The integrated approach facilitates discussionand resolution of manufacturing issues becauseeveryone is working with the same model andthe same modeler. We communicate issues andfeatures a lot better working with an integratedsystem.”þþ If changes are made on the manufacturing side,we capture them on both the design side and themanufacturing side because SOLIDWORKS andSolidCAM are fully associative.”þþ Since loading the SolidCAM trial version integratedþþ The integrated approach has a lot of advantages,in SOLIDWORKS, I’ve been able to programcomplex parts and run them without concern.The machine seems to run smoother than before,cutters last longer and confidence levels are high.I am able to train others here to use SolidCAM withease. The software is pretty self-explanatory andthe tutorials are easy to follow.”þþ SolidCAM is the Swiss pocket knife for machining.þþ The tight integration with SOLIDWORKS makes myincluding saving time, accessing a single geometryfile, and using the intelligence of our design datain a more efficient, systematic way.”With the modules for the 2.5D, 3D, simultaneous5-axis machining and rotary milling, all dailymachining tasks can be done quickly – from thecomplex drilling pattern to the most demanding5-axis impeller. Program the part, simulate andoff you go on the machine. The software delivers,what it has promised!”design-to-production life cycle easy and fast. TheSolidCAM support team is rock solid. I do somepretty complex 4-axis production projects andSolidCAM handles them very nicely.”www.solidcam.com3
iMachining 2DImagine putting the Knowledge andExperience of Hundreds of CAM andCNC Masters in the Palm of Your Hand– Experience iMachining’s Wizard &Toolpath!Patented iMachining:“Truly Amazing”This is what customers, machine tool manufacturersand tooling companies alike say about iMachining.The revolutionary iMachining CAM module, fully integrated in SOLIDWORKS, will make you and your CNCmachines more profitable and more competitive thanever before.Unique Technology WizardSolidCAM’s iMachining has the exclusive patentediMachining Technology Wizard, the industry’s first andonly Wizard that automatically calculates the Cuttingconditions for the iMachining tool path.The unique Technology Wizard provides optimal feedsand speeds, taking into account the toolpath, stock andtool material as well as machine specifications.All SolidCAM customers worldwide, who boughtiMachining, are enjoying immense savings and havegained a real competitive advantage.The Revolution in CNC Machining4]]Increased Productivity due to shorter cycles –time savings 70% and more!]]Dramatically Increased tool life]]Unmatched hard material machining]]Outstanding small tool performance]]4-axis and Mill-Turn iMachining]]Automatic, optimal feeds and speeds]]High programming productivity]]Shortest learning curve in the IndustryThe “iMachining Level Slider” lets the user choosefrom 8 selectable levels to automatically adjust for“real-world” fixture, tool holding and machine conditions. The “iMachining Level slider“ makes it easy toovercome standard problems with spindle-rigidity,fixture-rigidity and excessive tool extension.
iRough, iFinish and iRestTechnologies]]Combined roughing, finishing and rest materialfunctionality in one single job]]iRough iFinish: Roughing and contour finishing injust one job with the same tool. Ideal for prototypeconstruction and processing of soft materials]]iFinish: Suitable for precise machining and hardmaterials with separate tool for finishing walland floor]]Optimized rest roughing and bottom finishing of2.5D geometries with various strategies]]Automatic recognition and removal of rest materialremaining through the drill tipiMachining Morphing Spirals: Beyond Trochoidal CuttingThe patentediMachining Tool Paths!Morphing Spirals – iMachining uses an advanced,patented morphing spiral that gradually conforms tothe geometry of the feature being machined ratherthan an old-fashioned, simple spiral tool path (racetrack). This maximizes tool to stock contact - or - "toolin the cut" time.Moating: Divide & Conquer – In order to most efficientlyattack large areas of material removal as well as standalone islands, they are separated or subdivided intosmaller sections using iMachining’s patented Moatingtechnology. This maximizes the efficient morphedspiral cutting.Eliminate Wasted Time & Motion – iMachining toolpaths only cut the stock that needs to be removed,eliminating “air cuts”. From the initial approach, rightto the last cut, dynamically updated stock trackingensures every tool path actually cuts material.Moating: Intelligent dividing of areaswww.solidcam.com5
iMachining 3D forPrismatic PartsProgram and mill prismatic 2.5D partswith multiple pockets and islandsquickly and efficiently!While iMachining 2D requires user definition for eachgeometry (its chain and depth) resulting in severaloperations, iMachining 3D automatically identifiesgeometries and their depth, performing Roughing andRest Roughing in a single operation. iMachining 3D forprismatic 2.5D parts calculates the toolpath automatically and optimally, drastically reducing programmingand cycle time.Reduced Cycle timesMetal Removal Rates (MRR) are maximized to achieveshortest possible cycle times whereas tool life isdramatically increased. iMachining 3D for prismatic2.5D parts calculates the toolpath taking the completesolid model into account and not only single geometricchains. Depths of cut, the sequence of cutting areasand the positioning of the tool between 2D areas areautomatically optimized – resulting in highest CNC andprogramming productivity.Rest MachiningWith decreasing tool diameters, any number of restmachining operations can be performed – taking intoaccount the updated stock model: only the tight areasand corners will be machined.iMachining 2DiMachining 3D for 2.5D partsMachining Time16:05 min13:53 minProgramming time40 Minutes5 MinutesCAM-Jobs needed243Geometries needed121 solid modelAll data relate to the above part6
Ultimate Process ReliabilityIn iMachining 2D the user defines the machined areassolely by using geometry chains. iMachining 3D for prismatic 2.5D parts uses the complete 3D model and automatically protects the target model from gouges. This isa major advantage when working with larger tool diameters and in confined spaces.iMachining 3D for prismatic 2.5D parts adjusts the toolpath to avoid contact between the defined tool holderand the updated stock model, namely at every stage ofthe machining process. Tools can therefore be clampedshorter from the holder so machining can be faster andmore aggressive."Already after the first chip we werecompletely excited. Without iMachining wewould have had hard nuts to crack withaerospace materials such as ultra-highstrength steels with tensile strengths of morethan 2,000 N/mm², aircraft aluminum, nickelbased alloys and titanium.“Markus Gebhard, Dreiling Maschinenbau"Thanks to iMachining, we have a muchAutomatic Finishing ofPrismatic 2.5D PartsPocket recognition automatically identifies all pocketsfeatures along with their corresponding depths andat different levels, drastically reducing programmingtime. The complete finishing operation is performed ina single operation using a contour style pattern.higher output from our machines, whichdefinitely earns us money. ThroughiMachining we have won new customers,because now we can offer very good qualityat a more competitive price!“Drazen Perazic, Peramed Medicalwww.solidcam.com7
iMachining 3DUtilizing Proven iMachining 2D & TechnologyWizard Algorithms for Roughing andSemi-Finish of Molds, Complex 3D Partsand 3D Prismatic PartsAbsolutely unique: iMachining 3D8]]Quick solid geometry selection]]Optimized machining of each Z-Step, using proveniMachining 2D technology]]Deep roughing with the whole length of the fluteresults in shorter cycle times and increases tool life]]Rest material machining in small upward steps,optimized for constant scallop height, furthershortens cycle time]]Intelligent localized machining and optimalordering eliminates almost all long positioningmoves and retracts, producing the shortest times inthe industry]]A dynamically updated 3D stock model eliminatesall air cuttings]]Toolpath automatically adjusts to avoid contactbetween the holder and updated stock at everystageiMachining 3D provides amazing 3D machining results,regularly saving 70 % in machining time, reaching upto 90 %.iMachining 3D automatically produces a complete,ready to run CNC program, with optimal cutting conditions achieved by the expert knowledge-based Technology Wizard, to rough and rest rough a complete 3Dpart in a single operation for 3D surface models as wellas prismatic parts.A combination of its features full-depth step-down,intelligent step-up, localized machining and smartpositioning eliminates nearly all retracts, long positioning and air cuttings. This enables iMachining 3Dto achieve the shortest cycle times in the industry forroughing and semi-finish of molds, complex 3D partsand 3D prismatic parts.Combined with SolidCAM HSM Finish, iMachining 3Dprovides a complete machining solution for 3D parts.
iMachining 3D for Prismatic PartsiMachining 3D optimizes programming of prismatic parts with multiple pockets and islands. Ina single operation you define the solid models ofstock and part without the need of defining geometry chains. iMachining 3D then automatically calculates the optimal tool path – drastically reducingprogramming times.“We have freed up a lot of productioncapacity, have significantly increased ourproductivity, and reduced tool costs by morethan half. The investment has more than paidfor itself. For us, SolidCAM with iMachining isdefinitely a quantum leap.“M. Torghele, Liebherr Werk Nenzing, Austria“We use iMachining with nearly all ourproducts – from 2.5D-, 3D- up to 5- AxisMachining. From today‘s point of view, it isa no-go to work without it.“A. Winkler, Zrinski AG, Germanywww.solidcam.com9
2.5D MillingThe Most Powerful & EasiestWay to create 2.5D CNC MillingToolpaths: Full InteractiveControl Feature Recognition!Interactive 2.5D Mill OperationsBesides the standard 2.5D milling profiling, pocketingand drilling operations, SolidCAM offers:The most straightforward, easy-to-use interface, seamlessly integrated in SOLIDWORKS, combined with thelatest toolpath technology, provides the fastest, mostpowerful and easiest to create 2.5D CNC Milling toolpaths.Easily work on parts, assemblies, and sketch geometry to define your CNC machining operations. Quicklyplace fixtures and components for full visualization.Best of Both Worlds: CompleteInteractive Control FeatureRecognitionSolidCAM provides both interactive and automated2.5D milling operations on SOLIDWORKS models.Designed for both the novice and advanced user,SolidCAM offers the best of both worlds, with yourchoice of fully controlled selection of geometry, parameters and CNC programming strategies or AutomatedPocket and Drill Recognition and machining.10]]Chain modification options (offsetting, trimming,extending etc.), enabling changes to geometrywithout changing the CAD model]]Automatic rest material machining to cut thematerial remaining after using larger tools]]Chamfer machining using the same geometrydefined in Profile and Pocket operations]]Thread Milling operation for machining of standardinternal and external threads]]Variable levels of pockets and profiles in onesingle job]]Engraving of text on flat and wrapped faces andmiddle line engraving of a multi-line text]]Contour 3D operation drives the tool along a 3Dcurve, cutting the model at different depths]]Machining of geometry wrapped around rotationaxes, by transforming linear movement to rotarymovement
]]Special operation for machining of the side slotswith undercut by a T-slot tool.Pocket RecognitionTakes SolidCAM‘s powerful pocketing operation to thenext level, by automatically identifying all pockets onthe CAD model. All strategies and options of the standard Pocket operation are available, combined withvariable levels and depths recognized from the modelfaces.Drill RecognitionCycle ToolboxAutomatic recognition and grouping of holes from thesolid model with option to modify resulting geometry. Asingle Drill Recognition operation can machine groupsof holes on varying levels and depths.A very useful and convenient Cycle Toolbox providesadditional specialized sub-operations for slots, corners,bosses, ruled surface, etc.www.solidcam.com11
Automatic FeatureRecognition & MachiningPockets, Chamfers and Drills – SolidCAM AFRM almostautomatically generates ready-to-run CNC-Programsfor all 2.5D Operations!Advanced Pocket RecognitionSolidCAM AFRM sets the new standards. Instead ofmachining each individual pocket in a separate operation, all pockets, no matter whether they are open,closed, blind or through Pockets, are being identified with their corresponding depth and Z-level andmachined in one operation.]]12All strategies and options of the standard pocketoperation are available, combined with variableupper levels and depths recognized from themodel faces. User controls the choice of the Tool,Technology and Cutting Strategy.]]Automatic recognition and machining of fillets onthe Pocket floor.]]Automatic rest material recognition on eachpocket.]]The perfect tool for multi pocketed parts.Chamfering and DeburringSolidCAM automatically recognizes all sharp edgeswhere a chamfer can be applied. The user only sets thedepth of the chamfer, the cutting diameter of the tooland a safety offset. SolidCAM’s chamfer recognitionautomatically avoids vertical walls and machines asmuch as possible, while protecting the part from collisions with the shank.
Advanced Drill RecognitionSolidCAM automatically identifies all drills on the solidmodel and generates the necessary CNC operations.]]To select the drills to be machined, powerful filtertools such as diameter, Z-level or drill depth areavailable]]Spot drills can be generated on all drill positionswhere the depth relates to the diameter of the drilltool being usedSOLIDWORKS Hole WizardIn SOLIDWORKS all major hole features and types canbe quickly configured using the Hole Wizard. SolidCAMuses the data from hole features perfectly.]]All parameters of the SOLIDWORKS hole featuresCounterbore, Countersink, Hole, Straight Tap,Tapered Tap and Legacy Hole are inserted andmapped into SolidCAM Machining Processes.]]From the geometry entities that are input from theSOLIDWORKS Hole Wizard, SolidCAM automaticallycreates and uses geometries for profile & pocketmilling operations.www.solidcam.com13
HSSHigh Speed Surface Machining of LocalizedSurfaces – Important Module for EveryMachine Shop!SolidCAM HSS is a high speed surface machiningmodule for smooth and powerful machining of localized surface areas in the part, including undercuts. Itprovides easy selection of the surfaces to be machined,with no need to define the boundaries. It supports bothstandard and shaped tools.Total Tool Control to MachineOnly the Areas You ChooseHSS is the CAM module that takes your 2.5D machiningway beyond profiles, pockets and faces, providing a 3Dmachining capability by driving along specific surfaces onprismatic and 3D parts.Powerful Surface MachiningStrategies for Smooth, GougeFree & Optimal ToolpathsThe SolidCAM HSS Module provides numerous surfacemachining strategies, that produce an efficient,smooth, gouge-free and optimal toolpath to finish theselected surfaces.HSS provides special toolpath linking options, generating smooth and tangential lead-ins and lead-outs.The linking moves between the toolpaths can becontrolled by the user to avoid holes and slots, withoutthe need to modify the model’s surface. Retracts can beperformed to any major plane.14The HSS toolpath is focused on single or multiple surfacesand excels in creating a flowing toolpath on a group ofsurfaces that make up a complex 3D shape, e.g. fillets.Experience total tool control to machine only areas youchoose, without the need of constraint boundaries orconstruction geometry.
Advanced Gouge Control forHolder, Arbor and ToolComplete Gouge Control is available for Holder, Arborand Tool. Adjoining Check Surfaces that are to beavoided can be selected. Several retract strategies areavailable, under full user control.Important Module for EveryMachine ShopThe advantages of the SolidCAM HSS module translate to significantly increased surface quality. The HSSmodule is an important and valuable add-on for everymachine shop for the machining of all types of parts.Advanced LinkingTotal freedom to control tool entry and tool exit motion,to remove the need for surface modifications. Toolpaths can be extended or trimmed, gaps and holes canbe jumped and you can choose from multiple lead-in/lead-out options.Handling Undercut in HSSUse Tapered, Lollipop, or T-Slot tools for undercuts ordifficult to cut geometry.www.solidcam.com15
Indexial 5-Axis MillingPowerful SolidCAM Indexial, Multi-SidedMachining – Easiest Coordinate SystemDefinition!A common scene in any machine shop today is that 4and 5-axis CNC machines are increasing production,providing faster cycle times.SolidCAM provides an effective and easy way toprogram on multiple sides of a part. SolidCAM is exceptionally strong in indexial 4/5-axis machining.Easiest Coordinate SystemDefinition for Indexial 5-Axes!Tired of dealing with construction views, copyingmodels, and rotating them in space for new alignments? Do you still copy and transform geometry toseparate layers for indexial programming?16Experience single machine home position, withOne-click orientations for indexed setups – SolidCAMspeeds up multi-sided machining by eliminatingmultiple coordinate system constructions. Define aCoordinate System on the fly, by just picking a face, andcontinue programming your part.]]SolidCAM’s “select a face and machine” is thefastest approach to indexial programming]]Our coordinate system manager keeps track of allnecessary data for each tool orientation]]SolidVerify simulation shows tool holders andfixtures, together with material removal for allmachining operations
advanced plane rotation or coordinate rotation functions, SolidCAM’s post processors are built to use theseinternal CNC functions. If you have a machine withoutsuch functions, users can input the part location insideSolidCAM and the G-code will handle all of the transformations for each rotation.Efficient, Edit-Free G-Code forMulti-Axis MachinesSolidCAM offers multiple options to get efficient G-codefor multi-axis machines.SolidCAM‘s post processor can be set up to handle allrotations and work offset shifting, to eliminate the needfor setting up multiple work offsets at the machine.Whether your controller can calculate part rotationsinternally or it needs the post processor to handle rotations, SolidCAM has this covered.For controllers withOur philosophy to indexial milling is simple: from software to G-code – make the process for indexial millingthe same as for single-sided milling. No need for anyspecial functions or tricks inside the software tomachine multi-sided parts – it should just work!www.solidcam.com17
HSR & HSM – 3D HighSpeed MachiningEfficient Roughing and the Finest FinishToolpaths available for 3D Machining!HSR – High Speed RoughingSolidCAM HSR provides powerful high-speed roughingstrategies including contour, hatch, hybrid rib-roughingand rest roughing.Experience 3D machining taken to an entirely newlevel of smoothness, efficiency and smart machining,with the finest toolpaths available anywhere forcomplex 3D parts, aerospace parts, molds, toolsand dies.SolidCAM High-Speed Machining offers uniquemachining and linking strategies for generating 3D highspeed toolpaths. It smooths the paths of both cuttingmoves and retracts, wherever possible, to maintain acontinuous machine tool motion – an essential requirement for maintaining higher feed rates and eliminatingdwelling.HSM – High Speed FinishingWith SolidCAM’s HSM module, retracts to high Zlevels are kept to a minimum. Angled where possibleand smoothed by arcs, retracts do not go any higherthan necessary, minimizing air cutting and reducingmachining time.The result of HSM is an efficient and smooth toolpaththat translates to increased surface quality, less wearon your tools and a longer life for your machine tools.With demands for ever-shorter lead and productiontimes, lower costs and improved quality, High SpeedMachining is a must in today‘s machine shops.18
HSM – 3D Machining to theHighest LevelSolidCAM HSM module is a powerful solution for allusers who demand advanced High-Speed Machiningcapabilities. It can also be used to improve the productivity of older CNC’s with reduced air cutting andsmoothing arcs that maintain continuous tool motion.The SolidCAM HSM module features several enhancements to CAM technology that make high speed operations possible, e.g. avoiding sharp angles in the toolpath and generating smooth and tangential lead in/out.The tool stays in contact with the material as much aspossible and non-machining moves are being reduced.Let us show you how HSM takes 3D Machining performance to the highest level – all with your currentmachines.The working area of any HSM 3D job can be preciselycontrolled. To achieve this, a extensive set optionsis available, including silhouette boundaries, cuttercontact area boundaries, shallow area boundaries,rest area boundaries, user defined boundaries or byentering limits for surface slope angles.In addition, HSR/HSM toolpath can be edited after toolpath creation. Working areas, Z-level limits or a combination of both can be used to control cutting moves orto exclude specific areas from machining.www.solidcam.com19
Simultaneous5-Axis MillingAdvanced Simultaneous 5-Axis Toolpathswith a Very Friendly User-Interface]]Benefit from the most tested and most proven 5-Axismachining tool paths in the industry with a userfriendly interface, collision checking and the mostadvanced control over all aspects of tool path:]]20Wide variety of Simultaneous 5x cuttingstrategies]]Flow line cutting produces a toolpath that followsthe natural shape of the component]]Multi-surface finish machining keeps the toolnormal to the surface (or with specified lead andlag) to provide a smooth surface finish]]Advanced tool tilting control and direct control onside tilting and lead/lag angles]]Automatic collision avoidance strategies that checkeach part of both the tool and holder]]Multi-axis rest roughing efficiently removes theremaining material of the larger cutter diameterused previouslyRealistic full 3D machine simulation withcomprehensive collision and axis limits checkingFlexibility and ControlEach 5-Axis machining strategy provides sophisticatedoptions for approach/link control and tool axis control.Link and approach moves are fully gouge protectedand different strategies may be used depending onthe distance of the link move. SolidCAM also providesoptions for control over lead/lag and side tilt angles togive complete control over the final toolpath.Collision Avoidance forTool and HolderCollision avoidance is supported for both the tool andholder, and a range of strategies is offered for avoidingcollisions. The Machine Simulation provides completevisualization of the gouge checking.
SWARF MachiningContour 5-AxisMachiningWith SWARF machining, the toolis being tilted over to cut withits lateral surface. SWARF cutting utilizes the completecutting length of the tool, resulting in better surfacequality and shorter machining time.The Contour 5-axis machiningstrategy tilts the tool along achained 3D profile drive curve, while aligning the toolaxis according to defined tilt lines, making it ideal forgenerating 5-axis toolpath for deburring and trimming.Multi-BladeMachiningThe Multi-blade machining operation easily handlesimpellers and bladed disks, with multiple strategies toefficiently rough and finish each part of these complexshapes, which are being used in many industries.Port MachiningWith this 5X-job you canmachine intake and exhaustducts as well as inlets or outlets of pumps etc. in castingsor steel blocks with tapered lollopop tools. Roughing andfinishing operations can be quickly and easily definedand reliably simulated with complete collision control ofthe entire tool and holder.Screw MachiningThis job generates 4-Axis rotaryroughing and finishing tool pathfor screws using bull nose, ballnose or flat end mills.Multi-AxisDrillingThe Multi-Axis Drilling operation uses SolidCAM’s automatic hole recognition and then performs drilling,tapping or boring cycles, at any hole direction easilyand quickly. All the advanced linking, tilting and collision avoidance strategies are available in this operation.Convert HSM toSim 5-AxisThe Convert HSM to Sim 5-Axismilling operation convertsHSM 3D toolpaths to full 5-Axiscollision-protected toolpaths.This will maintain optimum contact point between thetool and the part and enables the use of shorter toolsfor more stability and rigidity.www.solidcam.com21
TurningSolidCAM Module for Fast andEfficient Turning22]]SolidCAM provides a comprehensive turningpackage with powerful toolpaths and techniquesfor fast and efficient turning.]]SolidCAM produces advanced rough and finishprofile turning, together with support for facing,grooving, threading and drilling.]]SolidCAM turning supports the widest range ofmachine tools, including 2-Axis lathes, multichannel configurations, sub-spindle turning centersand even the most complicated Mill-Turn machines.]]Turning geometries and profile can be generatedvery quickly, easily adopted or modified forproduction.The new interactive Machine preview in SolidCAMshows a STL-model of the machine with full axis kinematics as well as the home positions of all components.Tools, fixtures and machine control operations (MCOs)are displayed in real time – facilitating CAM programming and collision control without any extra softwaretools.A new tool wizard helps you to set-up or add new toolson the turret quickly and easily. In addition to the realistic display of all tools on the turret, the SolidCAMturning module employs advanced collision checkingfor all tools with any machine elements.
Advanced Turning Operations]]Balanced Roughing: two tools workingsimultaneously or in trailing mode, to performroughing turning of long and large parts.]]Angled Grooving: performs internal or externalinclined grooves, at any defined angle.]]Manual Turning: performs turning according touser-defined geometry, regardless of stock andtarget model.]]4th Axis Simultaneous Turning: performs machiningof curved profile using the B-axis tilting capabilitiesof the tool, in order to machine undercut areas in asingle machining step.]]Multi-turret Synchronization: provides powerfultools to synchronize your Multiple Turret machines.A machining time line, with all operations andsimple commands, enables you to align operationsthat will be synchronized. Afterwards, you cansee the result of synchronization in the MachineSimulation.MCO (Machine Control Operation)MCO (Machine Control Operation) enables the user toinsert various control operations while manufacturing apart. These operations control the CNC-Machine and activate different options and devices such as the opening orclosing of fixtures, activating coolants, rotating the part ormoving the part from one table to another.Updated StockSolidCAM has the ability to keep the stock updated livewithin the operations tree. Updated stock is supportedfrom the most basic 2-Axis Turning Center, right throughto a CYB Multi-turret, Sub-spindle Mill-Turn CNC-Machine.On a Sub-spindle Turning Center, when a component is transferred from the main to the sub-spindle,the Updated stock model is transferred with it. Anysubsequent machining on the sub-spindle will detectthe stock in the state that it left the main spindle, ultimately providing the most efficient machining sequencepossible.www.solidcam.com23
Advanced Mill-TurnEasy Programming for Complex MultipleTurret and Multiple Spindle CNC
] SolidCAM SOLIDWORKS is scalable with packages for all CNC machine types and applications. The integrated CAD/CAM-Solution SOLIDWORKS SolidCAM is available at a competitive bundle-price SolidCAM is the Complete, ‘Best-in-Class’ CAM Suite for Pr
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