Solid Works PPTS for making report by educational purpose
VenkataSaiNaveenYarr
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May 10, 2025
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About This Presentation
about solidworks for report
Slide Content
Prepared By:-
Mr. Akshay A. Bhapkar
Mr. Akshay A. Bhapkar
Content
•Prerequisites, Course Objectives, Course Outcomes
•Introduction of Solid-works
•Application
•Case study
•Why solid works?
•Future requirements solid Works
•Companies using solid-works
•Is it Solid works require in next 3 academic years?
•Prerequisites, Course Objectives, Course Outcomes
•Introduction of Solid-works
•Application
•Case study
•Why solid works?
•Future requirements solid Works
•Companies using solid-works
•Is it Solid works require in next 3 academic years?
Who is Engineer and Mechanical Engineer?
•Engineer:-
-is a practice and its it’s way of thinking to design and build the product. Which
is better, smarter, faster, and environment friendly which makes human life
comfortable and easier.
•Mechanical Engineer:-
-Use core principles along with tools like computer-aided engineering and
product lifecycle management(CAM/CAE) to design and analyze manufacturing
plants, industrial equipment and machinery, heating and cooling systems,
transport systems, aircraft, watercraft, robotics, medical devices and more
•Engineer:-
-is a practice and its it’s way of thinking to design and build the product. Which
is better, smarter, faster, and environment friendly which makes human life
comfortable and easier.
•Mechanical Engineer:-
-Use core principles along with tools like computer-aided engineering and
product lifecycle management(CAM/CAE) to design and analyze manufacturing
plants, industrial equipment and machinery, heating and cooling systems,
transport systems, aircraft, watercraft, robotics, medical devices and more
CAMD- Computer Aided Machine Drawing
•Prerequisites: -
1. Fundamentals Engineering Drawing
2. Projection of Solids
3. Basic knowledge of 2-D drafting using graphics software
•Course Objectives:
1.To develop an ability to Create Parametric 2-D Sketches, and Create and Edit Parametric Dimensions.
2.To develop an ability to Create assembly models of simple machine (minimum 5 components).
3.To develop the ability Geometric Tolerances to components and assemblies on Engineering Drawings.
•Course Outcomes:
1.Understand the importance of CAD in the light of allied technologies such as CAM, CAE, FEA, CFD, PLM.
2.Understand the feature-based modeling and its application in 3D machine components modeling.
3.Ability to ensure manufacturability and proper assembly of components and assemblies.
4.Ability to communicate between Design and Manufacturing using 2D drawings.
•Prerequisites: -
1. Fundamentals Engineering Drawing
2. Projection of Solids
3. Basic knowledge of 2-D drafting using graphics software
•Course Objectives:
1.To develop an ability to Create Parametric 2-D Sketches, and Create and Edit Parametric Dimensions.
2.To develop an ability to Create assembly models of simple machine (minimum 5 components).
3.To develop the ability Geometric Tolerances to components and assemblies on Engineering Drawings.
•Course Outcomes:
1.Understand the importance of CAD in the light of allied technologies such as CAM, CAE, FEA, CFD, PLM.
2.Understand the feature-based modeling and its application in 3D machine components modeling.
3.Ability to ensure manufacturability and proper assembly of components and assemblies.
4.Ability to communicate between Design and Manufacturing using 2D drawings.
1.SolidWorks is used by students, designers, engineers, and other
2.SolidWorks is beneficial because it saves time, effort, and money
3.SolidWorks is a complete 3D solid modeling package.
4.In SolidWorks, you sketch ideas and experiment with different
designs to create 3D models.
Solid Works
2.SolidWorks is beneficial because it saves time, effort, and money
3.SolidWorks is a complete 3D solid modeling package.
4.In SolidWorks, you sketch ideas and experiment with different
designs to create 3D models.
Solid Works
SolidWorks
Academic Syllabus
1)Sketching
2)Part Design
3)Assembly
4)Drafting
5)GD & T
Advanced Syllabus or company requirements
1)Sketching 7) Sheetmetal
2)Part Design 8) Weld ments
3)Assembly 9) Advanced mates
4)Drafting 10) Motion study
5)GD & T 11) Mold tool
6)Surfacing 12) And so on………….
Academic Syllabus
1)Sketching
2)Part Design
3)Assembly
4)Drafting
5)GD & T
Advanced Syllabus or company requirements
1)Sketching 7) Sheetmetal
2)Part Design 8) Weld ments
3)Assembly 9) Advanced mates
4)Drafting 10) Motion study
5)GD & T 11) Mold tool
6)Surfacing 12) And so on………….
Sketcher
•User interference and tools easy to understand and use.
•The sketcher is used to create 2D sketches of designs, and apply constraints to the sketched geometry
•Constraints can be applied as:
•Driving Dimensions
•Geometric Constraints
•User interference and tools easy to understand and use.
•The sketcher is used to create 2D sketches of designs, and apply constraints to the sketched geometry
•Constraints can be applied as:
•Driving Dimensions
•Geometric Constraints
Part Design
•The Part Design application is used to create solid models of parts
•Solid parts are usually created from 2D profiles(Sketch) that are extruded or revolved to form a base
feature
•The Part Design application is used to create solid models of parts
•Solid parts are usually created from 2D profiles(Sketch) that are extruded or revolved to form a base
feature
Assembly Design
•The Assembly Design application allows you to create a product model from a number of separate parts
•Constraints can be applied between the parts in assembly to define relationships between them
•Support for reuse of standard parts
•multiple of parts can be efficiently created
•Design changes are automatically reflected in the assembly
•Management of inter-part relationships
•Mating Conditions
• Contact Constraints
•Development of Kinematics models
•Simple mechanisms analysis available
•The Assembly Design application allows you to create a product model from a number of separate parts
•Constraints can be applied between the parts in assembly to define relationships between them
•Support for reuse of standard parts
•multiple of parts can be efficiently created
•Design changes are automatically reflected in the assembly
•Management of inter-part relationships
•Mating Conditions
• Contact Constraints
•Development of Kinematics models
•Simple mechanisms analysis available
Drafting
•Allows you to create engineering drawings without first creating a 3D part
•Provides 2D drawing functionality to create geometry layouts
•Provides dimension and dress-up facilities for drawing annotation (GD &T)
•Allows you to create engineering drawings without first creating a 3D part
•Provides 2D drawing functionality to create geometry layouts
•Provides dimension and dress-up facilities for drawing annotation (GD &T)
Surfacing
SHEETMETAL
GEOMETRIC DIMENSIONING AND TOLERANCING
(GD&T)
•Uses symbols to specify geometric characteristics and dimensional requirements
•Current GD&T standard: ANSI/ASME Y14.5M-1994
•Symbols for:
•Form and profile tolerances
•Orientation tolerances
•Location tolerances
•Run-out tolerances
(GD&T)
•Uses symbols to specify geometric characteristics and dimensional requirements
•Current GD&T standard: ANSI/ASME Y14.5M-1994
•Symbols for:
•Form and profile tolerances
•Orientation tolerances
•Location tolerances
•Run-out tolerances
Motion analysis and Advanced Mates
•What is motion simulation? What problems can it solve? How can it
benefit the product design process?
•Motion can simulate moving or dynamic systems and will give outputs to
size your design.
•Some of the outputs are:
-Displacements
-Reaction Forces
-Accelerations
-Motor Power
Type of Problem FEA Motion Simulation
Analysis of mechanisms No
Yes
Analysis of models with rigid body motions No Yes
Analyzed model is prepared in CAD Yes Yes
•What is motion simulation? What problems can it solve? How can it
benefit the product design process?
•Motion can simulate moving or dynamic systems and will give outputs to
size your design.
•Some of the outputs are:
-Displacements
-Reaction Forces
-Accelerations
-Motor Power
Type of Problem FEA Motion Simulation
Analysis of mechanisms No
Yes
Analysis of models with rigid body motions No Yes
Analyzed model is prepared in CAD Yes Yes
Weld-Ments
AIR CONDITIONING
Japan
FURNITURE
Spain
KITCHEN
USA
COMPUTER
USA
VACUUM CLEANER
Italy
STAIRS
Italy
HANDLES
USA
LOCK
USA
TELEPHONE
Germany
BATHROOM
Spain
Applications of Solid-works
Japan
FURNITURE
Spain
KITCHEN
USA
COMPUTER
USA
VACUUM CLEANER
Italy
STAIRS
Italy
HANDLES
USA
LOCK
USA
TELEPHONE
Germany
BATHROOM
Spain
Applications of Solid-works
Industry Example: Trek Bikes
•Company:
1.Designs, manufactures, and markets bicycles
and bike accessories.
•Challenge:
1. Heightened expectation for quality
2. Integrate Design and Manufacturing Increased
market demand
• SolidWorks Benefits:
1. Shortened design cycle by 50%
2. Improved product quality
3. Doubled throughput of new products (100%
increase)
By providing integrated design, analysis, manufacturing, and
communication tools, SolidWorks software has enabled Trek
Bicycles to double its design throughput while improving
quality and increasing innovation.
"SolidWorks has the most solid business experience in actual
production settings. Because we wanted to use 3D data at more
points in our development process, we chose the system with
the most momentum, knowing that it would produce additional
opportunities for integration."
Steve Baumann, Industrial Design Manager
•Company:
1.Designs, manufactures, and markets bicycles
and bike accessories.
•Challenge:
1. Heightened expectation for quality
2. Integrate Design and Manufacturing Increased
market demand
• SolidWorks Benefits:
1. Shortened design cycle by 50%
2. Improved product quality
3. Doubled throughput of new products (100%
increase)
By providing integrated design, analysis, manufacturing, and
communication tools, SolidWorks software has enabled Trek
Bicycles to double its design throughput while improving
quality and increasing innovation.
"SolidWorks has the most solid business experience in actual
production settings. Because we wanted to use 3D data at more
points in our development process, we chose the system with
the most momentum, knowing that it would produce additional
opportunities for integration."
Steve Baumann, Industrial Design Manager
Company using solid-works
•Indian Railways – Chennai Unit
•Bosch
•L&T-S&L
•HCL Technologies
•CRI Pumps
•Jindal Steel and Power
•Makino
•Altis Industries
•Inspros
•Indian Railways – Chennai Unit
•Bosch
•L&T-S&L
•HCL Technologies
•CRI Pumps
•Jindal Steel and Power
•Makino
•Altis Industries
•Inspros
Why solid works:-
1.Why solid works 1:-
2.Why solid works 2:-
3.Why solid works 3:-
1.Why solid works 1:-
2.Why solid works 2:-
3.Why solid works 3:-
THANK
YOU
YOU
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