Solidworks
What is Solidworks?
Solidworks is a Dassault product. It is well known for its user-friendly Interface. It is a 3D CAD software tool that aids the product development phase and help the user create a visual and electronic 3D for better understanding. With its intuitive interface, and a wide range of specialized and compatible products to support all design and engineering functions, SolidWorks promises to:
- Shortened design cycle
- Increased productivity of engineers and designers
- Faster delivery of innovative products
What can Solidworks do?
- CAD Modeling and Animation – To develop 3D, animated movie of product design
- Assembly Design – To design parts and assemble them
- Sheet Metal Design – To design parts which are to be fabricated with sheet metal
- Costing – To check the value of design against manufacturing cost
- Product Data Management – To repurpose design data in a safe manner
- Weldment Design – To model welded structures with standard structural members
- Tolerance Analysis – To analyze the tolerance level of each part individually and of parts when functioning collectively
- CAD Library – To turn up productivity by using CAD library
- Interference Check – To check how all the parts fit among themselves and operate according to the requirement
Why Solidworks?
- Solidworks is 3D Mechanical CAD is easy-to-use affordable and available on the Windows desktop.
- Solidworks user base ranges from individuals to large corporations, and covers a very wide cross-section of manufacturing market segments.
- Solidworks users enjoy wide career options as well as job opportunities
- The software grants the designer, ability to import data, store it securely while maintaining flexibility and accessibility
Learning Outcomes
- Information packed practical training starting from basics to advanced
- Course content designed by considering the review of different companies. We insure we update our syllabus on regular intervals to keep our training in sync with the Industry Need.
- Practical assignments at the end of every session.
- Practical learning experience with live project work and examples.
- We encourage Project based learning.
Who should learn?
Mechanical Engineers, Diploma Holders in Mechanical Stream, Automobile and Aerospace Design Students and Professionals, Product Design and Development Professionals and anyone having interest in designing, 3D Visulization and Product Development can pursue this course.
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Course Features
- Lectures 40
- Quizzes 0
- Duration 64- 120 hours
- Skill level Advanced
- Language English & Hindi
- Students 0
- Assessments Yes
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Introduction to CAD, CAE, PDM SolidWorks Graphical User Interface
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Sketch entities I (case study 1)
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Sketch entities II (case study 2)
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Sketch entities III (case study 3 along with constraints)
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Sketch Tools I Sketch modification tools (case study 4)
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Advanced Sketch Tools II (case study 5)
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Advanced Sketch Tools III Sketch Blocks
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Practice Sketch Exercise
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Working with 3D Sketch (case study )
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Part Modelling I (Sketch based feature)
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Part Modelling II (Sketch based feature) Case study 5
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Part Modelling III (Sketch based feature) Case study 6
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Creating reference
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Part Modelling IV (applied based feature)-fillet chamfer
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Creating curves (case study tension spring)
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Creating curves case study
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Advanced feature tools (rib, draft, shell, wrap, intersect) Advanced modelling tools ( dome, free form, Shape feature, deform, Indent, Flex)
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Creating patterns (Linear pattern, Circular pattern, Sketch driven pattern, Curve driven pattern, Table driven pattern, Fill pattern, mirror )
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Inserting Fastening Feature
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Environment and utilities (Configurations, Direct editing tool, Evaluation tools)
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Part modelling (practice book)
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Part modelling (practice book)
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Assembly Tools I Introduction to Assembly Modeling and Approaches Applying standard mates
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Assembly Tools II-Applying Advanced Mates
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Assembly Tools III-Applying Mechanical Mates
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Assembly Tools IV-Applying smart mates and mate references, Manipulating components
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Assembly tools V –Creating assembly pattern and mirror
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Assembly tools VI-creating exploded views and top down assembly
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Assembly Practice (Case studies)
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Assembly Practice (Case studies)
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Surface modelling I-Extrude, revolved, swept, lofted, boundary
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Surface modelling II- Filled surface, freeform, Surface extension and surface copy tools
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Surface modelling III- Extend surface, trim and untrim surface, knit surface, Delete and Replace Face,Thicken and Thickened Cut , cut with surface
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Surface modelling IV-Case study
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Generating Drawing Views, Generating Views Introduction To Angle Of Projection Creating Dimensions Inserting Annotations
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Sheet Metal design I- Concepts in Sheet metal design bend allowance bend deduction, K-factor
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Sheet Metal design Case Study
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Product Data Management
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Weldment Design
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Photoworks