Course Module
Department of Agricultural Engineering Faculty of Agricultural Technology Universitas Brawijaya
Module name COMPUTER AIDED DESIGN (CAD) Module level Undergraduate program
Code TPO61009
Subtitle - Courses - Semester(s) 3 Person
responsible for the module
Angky Wahyu Putranto, STP, MP
Lecturer 1. Yusuf Hendrawan, STP, M.App.Life.Sc, PhD 2. Darmanto, ST, MT
3. Angky Wahyu Putranto, STP, MP Language Bahasa Indonesia, English
Relation to curriculum
Compulsory Type of
teaching, contact hours
Contact hours and class size separately for each teaching method: lecture, lesson, practical, project, seminar etc.
Workload
Credit points 3 SKS / 5,1 ECTS Requirements
according to the
examination regulations
-
Recommende d
prerequisites -
Module objectives/int ended learning outcomes
ILO-1: Demonstrate basic knowledge of mathematics and natural sciences in applying engineering principles to identify and solve contemporary problems related to the bioprocess field.
ILO-3: Design biological reactions and bioreactors including raw materials, instrumentation, control and modeling
ILO-7: Evaluate the manufacturing and commercialization of bioprocesses and bioproducts using entrepreneurial principles
Knowledge: students understand technical drawing standards according to ISO and are able to use AUTOCAD software
Skills: cognitive – Basic knowledge of drawing techniques according to ISO standards and using AUTOCAD software to create basic objects of 2D drawings and 3D models
Competences:
Students are able to draw mechanical elements in the field of bioprocess engineering by applying the principles of drawing techniques according to ISO standards manually and using CAD
Content Lecture:
1) Introduction to engineering drawing (CLO-1) 2) Use of engineering drawing principles (CLO -1)
a. Use of standard drawing paper b. Image header / title block c. Outlines on drawing paper d. Image scale
3) Standard of lines, letters and numbers in ISO (CLO -1) 4) How to assign image sizes (CLO -1)
5) Applications of orthographic projection, axonometry and sketches in engineering drawing (CLO-1)
6) The principle of cross-sectional drawing in the technical drawing of CLO- 1)
7) Principles of geometry in engineering drawings (CLO-1)
8) Introduction to CAD, History, Usability, and Software, Introduction to CAD program graphic interface (Start, Organize, Save, Control Drawing views, units, toolbar) (CLO-2)
9) Operating CAD software to create basic 2D drawing objects with basic tools, inclusion of dimensions, formats, properties, viewports, commands and image modification (CLO-2)
10) Presentation of 2D images and plotting techniques (CLO-2)
11) The introduction of 3D objects includes definitions of functions and benefits; 3D Solid Objects (Box, Sphere, Cylinder, Cone, Wedge, Torus);
Get to know 3D modification (3D VIEW, 3D SURFACE, 3D RENDERING;
Advanced 3D modification for various types of objects; 3D modification with commands; Layering system; 3D image presentation and plotting techniques (CLO-2)
12) Designing 2D and 3D components of tools and machines in the field of Bioprocess Engineering (CLO-2)
Practicum:
1. Introduction to CAD and task 1 (CLO-1)
2.AutoCAD basics and 2D drawing Practicum: AutoCAD menus and toolbars, 2D drawing exercises (CLO-1, CLO-2)
3. Task 2: draw 2D (CLO-1, CLO-2)
4.Practicum rendering and 3D drawing: windmills (CLO-1, CLO-2, CLO-3) 5.Projection and plotting Practicum (CLO-1)
6. Task 3: draw 3D (CLO-1, CLO-2, CLO-3) 7. Practicum Final Exam (CLO-1, CLO-2, CLO-3) Study and
examination requirements and forms of examination
1. Midterm exam 2. Final term exam 3. Assignment 4. Group assignment
5. Laboratory Practice Report 6. Laboratory Practice Final Exam How to score:
Midterm Exam = 18%
Final Exam = 30%
Assignment 1 = 10%
Assignment 2 = 7%
Assignment 3 = 3%
Laboratory Practice (Report, Lab. Exam, Final Project) = 30%
A : 80 < Final Score ≤ 100 B+ : 75 < Final Score ≤ 80 B : 69 < Final Score ≤ 75 C+ : 60 < Final Score ≤ 69 C : 55 < Final Score ≤ 60 D : 50 < Final Score ≤ 55 D+ : 44 < Final Score ≤ 50 E : 0 < Final Score ≤ 44 Media
employed
Class, Online learning system (Zoom and Google Classroom), Laboratory Practice
Reading list 1) Basant Agrawal and C M Agrawal (2008). Engineering Drawing. Tata McGraw Hill, New Delhi.
2) Paige Davis, Karen Renee Juneau (2000). Engineering Drawing. Tata McGraw Hill, New Delhi.
3) David A. Madsen, Karen Schertz, (2001) Engineering Drawing & Design.
Delmar Thomson Learning.
4) Wolfgang Lefèvre ed. (2004). Picturing Machines 1400-1700 : How technical drawings shaped early engineering practice. MIT Press, 2004.
ISBN 0-262-12269-3