Week 11 - Final project

AIM:-

To create a solid body of Side Door plastic trim including the engineering features using CATIA V5 tool using the  given Class A surface and master section and adding thickness to the component

INTRODUCTION:-

Side Door Plastic Trim

An interior plastic component attached to the inner side of the door. This product improves the appearance of the vehicle intertior and also creates a more comfortable interior by providing a variety of fitments and functions.

The stages of Design life cycle are

Concept Sketches:

Concept sketches are rough ideas of free hand sketch obtained through styling team and will be used to prepare the model. It is usually done through pen and paper and through painting software. This will be used to generate the concept for preparing the model by incorporating various styles and information obtained through stakeholders.

Class A creation:

After finalizing the concept, the sketches are usually worked in software's such as AutoDesk Alias to create Class A surface.

Clay Modeling:

The Class A Surface is concurrently worked by the clay modelers to brainstrom abd benchmark the styling of the product and later the concept is validated by bringing up a rough clay model and then it is passed on to the design team for the preparation of New Product Design(NPD) CAD.

NPD CAD:

This is where the development of surfaces to parts in CAD kick off and design engineers involvement is vital in this stage.

The designers will work on the input Class A surafces which are validated from the feasibilty team

The procedure followed in creation of the plastic New Product Design are

• Tooling axis
• B Surface Creation
• C Suraface Creation
• Closed Body Creation
• Draft Analysis

PROCEDURE OF PART CREATION:

1) Input Given:

Design of Interior Door Trim:

Interior door trim consists of four components

1) Lower Substrate

2) Upper Substrate

3) Map Pocket

4) Door Arm Rest

2) Class A Surface:

In Automotive design, a Class A Surface in any of a set of freeform surfaces of high efficiency and quality. Although, strictly, its nothing kore than saying the surfaces have curvature and tangency alignment- to ideal aesthetical reflection quality, many people interpret Class A surfaces to have G2 or even G3 curvature continuity to one another. Class A Surfacing is done using computer aided industrial design applications. Class A surface modellers are also called "digital sculptors" in the industry. Industrial Designers Develope their design styling through A-Surface, the physical surface the end user can feel, see, touch etc.

Lower Substrate

 Map Pocket

Door Arm rest

3) Tooling Axis:

Tooling axis is nothing but the direction in which the core and cavity opens and closes. Design engineer works on it to analyse the Class A

Lower Substrate

Map Pocket

Arm rest

4) Draft Analysis:

The Draft analysis command enables you to detect if the part you drafted willbe easily removed. This type of analysis is based on color ranges identifying zones on the analysed element where the deviation from the draft diection at any point, corresponds to specified values.

Draft anlges are very important in thermoforming product designs. If the product is formed onto a female or negative mould, it shrinks away from the mould side wals. As a result, true female or negative products can be thermoformed with vertical walls having zero draft angles. Parts cannot be ejected from the tool if it is at 90 degree surface. For that reason, a small draft angle is to be provided for each and every surface of the component in order to easy removal of the component from the moulds without any defects. Most of the part require minimum 0.5 degree to 1 degree, however 3 degree is widely accepted in plastic component design. Draft analysis is the technique used to analyse weather our designed product are manufacturable with required conditions are not.

surface and finds out the best possible tooling direction keeping in mind all the draft angle is with respect to the tooling axis so that the component can be easily ejected from the moulds.

Arm Rest

Map Pocket

Lower Substrate

5) Class B Surface Creation;

Class B surface includes derived surfaces created by offset operations from Class A surfaces to define the thickness Of the material. In this file it is important to link Class B Surfaces geometrically to enable an adaptation to Class A surfaces Automatically in case of styling change.

After creating the tooling axis, B surface is to be created which is nothing but the surface parallel to the A surface. B surface contains all the fillets and the edges which the A surface contains.

6) Class C Surface Creation:

Class c Surface is swept along the boundary of the Class A at an angle perpendicular to the Class A Surface

with respect to the tooling axis direction with a draft angle of 3 degree.

7) Joining Class A,B and C Surfaces to get a Closed Surface:

After finishing all the 3 Surfaces, join the Class A and Class C surface together using Join command. Now, the joined surfaces are then trimmed with the Class B surface to form a Closed Surface.

8) Creation Of Flanges, Ribs, Dog House and Heat Stakes:

Dog House:

Create the Dog House as per the design rules and give the requiredd draft angle.

• Dog House wall thickness at intersecton of the part Wall(C) should be 40% or less than the main wall stock(T).
• Height of (B) should be between 3-6 mm.

Ribs:

Create the ribs as the design rules and give the required draft angle, Ribs are created to increase the stifness and strength of the surface.

Heat Stakes:

Heat  Staking is a pulsed-heat process to join two or more parts out of which one atleast is made of plastic.

The process to deform the plastic material using heat and force at a set process time. The bond is made bt partially

Final output

RESULTS:

• Class A, B and C surface was created as per the automotive standards using CATIA V5 Software.
• Draft Analysis was performed for the built model and it could be seen the the draft was under permissible limit for the manufacturing of the component.
• B side features were created for the component as per the design Rules.