Ce 6711 - Computer Aided Design And Drawing

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NSCET  –  LAB  LAB MANUAL NADAR SARASWATHI COLLEGE OF ENGINEERING AND TECHNOLOGY THENI CE 6711 - COMPUTER AIDED DESIGN & DRAFTING LABORATORY MANUAL PREPARED BY STAFF INCHARGE RECOMMENDED BY HOD/CIVIL APPROVED BY PRINCIPAL NSCET  –  LAB  LAB MANUAL GENERAL INSTRUCTIONS: The following instructions should be strictly strictl y followed by the students in the Computer Aided Design & Drafting Laboratory. 1. All the students are expected to come to the lab with shoe, uniform, ID card etc. whenever they come for the laboratory class. 2. For each lab class, all the students s tudents are expected to come with Manual, Record note book, pencil, eraser, sharpener, scale, divider, drawing sheet, & calculator, etc. 3. All the students are expected to complete their laboratory work  and get it corrected in the laboratory class itself. 4. Computer System must be handled with care and the students must switch on and off in the  presence of Lab Technician only. only. 5. The students must save their files in the location specified by the 6. While coming coming to the next lab class, students are expected to submit Lab in Charge. the record note for  correction. 7. Breakage amount will be collected from the student(s) for causing damage to the systems due to wrong operation or carelessness STAFF INCHARGE HOD/CIVIL NSCET  –  LAB  LAB MANUAL GENERAL INSTRUCTIONS: The following instructions should be strictly strictl y followed by the students in the Computer Aided Design & Drafting Laboratory. 1. All the students are expected to come to the lab with shoe, uniform, ID card etc. whenever they come for the laboratory class. 2. For each lab class, all the students s tudents are expected to come with Manual, Record note book, pencil, eraser, sharpener, scale, divider, drawing sheet, & calculator, etc. 3. All the students are expected to complete their laboratory work  and get it corrected in the laboratory class itself. 4. Computer System must be handled with care and the students must switch on and off in the  presence of Lab Technician only. only. 5. The students must save their files in the location specified by the 6. While coming coming to the next lab class, students are expected to submit Lab in Charge. the record note for  correction. 7. Breakage amount will be collected from the student(s) for causing damage to the systems due to wrong operation or carelessness STAFF INCHARGE HOD/CIVIL NSCET  –  LAB  LAB MANUAL CE 6711 COMPUTER AIDED DESIGN & DRAFTING LABORATORY LTPC0042 OBJECTIVE At the end of the course the student acquires hands on experience in design and preparation of structural drawings for concrete / steel structures normally encountered in Civil Engineering  practice. 1. Design and drawing of RCC cantilever and counterfort type retaining walls with reinforcement details 2. Design of solid slab and RCC Tee beam bridges for IRC loading and reinforcement details 3.Design and drafting of circular and rectangular RCC water tanks 4. Design of plate Girder Bridge - Truss Girder bridges  – Detailed Drawings including Connections 5. Design of hemispherical hemispherical bottomed steel tank TOTAL: 60 PERIODS TEXT BOOKS 1. Krishna Raju, “Structural Design & Drawing (Concrete & Steel)”, CBS Publishers 2004. 2. Punmia, B.C., Ashok Kumar Jain, Arun Kumar Jain, “Design of steel structures”, Lakshmi publications Pvt. Ltd 2003. REFERENCES 1. Krishnamurthy, D., “Structural Design & Drawing – Vol. –  Vol. II”, CBS Publishers & Distributors, Delhi 1992. 2. Krishnamurthy, D., “Structural Design & Drawing – Vol. –  Vol. III Steel Structures”, CBS Publishers & Distributors, New Delhi 1992. EXAMINATION DURATION LIST OF EQUIPMENTS 1. 1. Models of Structures - 1 each. 2. Computers Pentium IV - 30 Nos. 3. Analysis and Design Software - Minimum 5 user License - 1 No. 4. Auto CAD Software - Multi user License - 1 No. 3 HOURS NSCET  –  LAB MANUAL NSCET  –  LAB MANUAL CONTENTS CYCLE-I Study Exercise –  AutoCAD Commands 1. Design and drawing of RCC Cantilever retaining walls with reinforcement details. 2. Design and drawing of RCC Counterfort type retaining walls with reinforcement details. 3. Design of Solid slab bridge culvert for IRC loading and reinforcement details 4. Design of RCC Tee beam girder bridges for IRC loading and reinforcement details CYCLE-II 5. Design and detailing of Circular water tanks 6. Design and detailing of Rectangular water tanks 7. Design of Plate Girder bridge and Detailed drawings including connections 8. Design of Truss Girder bridge and Detailed drawings including connections 9.. Design of hemispherical bottomed steel tank NSCET  –  LAB MANUAL EX NO-1 STUDY EXERCISE  –  AUTOCAD COMMANDS DATE: ARC AREA ARRAY BHATCH BLOCK  BOUNDARY BOX BREAK  CAL CHAMFER  CIRCLE COPY DIST DIVIDE DONUT ELLIPSE ERASE EXPLODE EXPORT EXTEND EXTRUDE FILLET GRID GROUP HATCH HELP (F1) ID IMPORT INSERT LEADER  LENGTHEN LIMITS LINE LINETYPE LIST LTSCALE MLINE MOVE MTEXT  NEW OFFSET OPEN OPTIONS ORTHO Creates an arc Calculates the area and perimeter of objects or of defined areas Creates multiple copies of objects in a pattern Fills an enclosed area or selected objects with a hatch pattern Creates a block definition from objects you select Creates a region or a polyline from an enclosed area Creates a three-dimensional solid box Erases parts of objects or splits an object in two Evaluates mathematical and geometric expressions Bevels the edges of objects Creates a circle Duplicates objects Measures the distance and angle between two points Places evenly spaced point objects or blocks along the length or  Draws filled circles and rings Creates an ellipse or an elliptical arc Removes objects from a drawing Breaks a compound object into its component objects Saves objects to other file formats Extends an object to meet another object Creates unique solid primitives by extruding existing twodimensional Rounds and fillets the edges of objects Displays a dot grid in the current viewport Creates a named selection set of objects Fills a specified boundary with a pattern Displays online help Displays the coordinate values of a location Imports files in various formats into AutoCAD Places a named block or drawing into the current drawing Creates a line that connects annotation to a feature Lengthens an object Sets and controls the drawing boundaries and grid display Creates straight line segments Creates, loads, and sets linetypes Displays database information for selected objects Sets the linetype scale factor  Creates multiple parallel lines Displaces objects a specified distance in a specified direction Creates multiline text Creates a new drawing file Creates concentric circles, parallel lines, and parallel curves Opens an existing drawing file Customizes the AutoCAD settings Constrains cursor movement  perimeter of an object objects NSCET  –  LAB MANUAL CE2405-COMPUTER AIDED DESIGN &DRAWING LABORATORY OSNAP Sets object snap modes PEDIT Edits polylines and three-dimensional polygon meshes PLAN Displays the plan view of a user coordinate system PLINE Creates two-dimensional polylines PLOT Plots a drawing to a plotting device or file POINT Creates a point object POLYGON Creates an equilateral closed polyline QUIT Exits AutoCAD RECTANG Draws a rectangular polyline REDRAW Refreshes the display in the current viewport REGEN Regenerates the drawing and refreshes the current viewport REGION Creates a region object from a selection set of existing objects ROTATE Moves objects about a base point SAVE Saves the drawing under the current file name or a specified name SCALE Enlarges or reduces selected objects equally in the X, Y, and Z directions SKETCH Creates a series of freehand line segments SNAP Restricts cursor movement to specified intervals SPHERE Creates a three-dimensional solid sphere SPLINE Creates a quadratic or cubic spline (NURBS) curve SPLINEDIT Edits a spline object STRETCH Moves or stretches objects SUBTRACT Creates a composite region or solid by subtraction TEXT Displays text on screen as it is entered TIME Displays the date and time statistics of a drawing TORUS Creates a donut-shaped solid TRIM Trims objects at a cutting edge defined by other objects U Reverses the most recent operation UNDO Reverses the effect of commands UNION Creates a composite region or solid by addition UNITS Controls coordinate and angle display formats and determines precision XLINE Creates an infinite line XPLODE Breaks a compound object into its component objects ZOOM Increases or decreases the apparent size of objects in the current viewport NSCET  –  LAB MANUAL CYCLE -I NSCET  –  LAB MANUAL EX NO-1 DESIGN OF CANTILEVER RETAINING WALL DATE: NSCET  –  LAB MANUAL CE2405-COMPUTER AIDED DESIGN &DRAWING LABORATORY NSCET  –  LAB MANUAL CE2405-COMPUTER AIDED DESIGN &DRAWING LABORATORY 2 =53.84kN/m σmin NSCET  –  LAB MANUAL CE2405-COMPUTER AIDED DESIGN &DRAWING LABORATORY NSCET  –  LAB MANUAL CE2405-COMPUTER AIDED DESIGN &DRAWING LABORATORY NSCET  –  LAB MANUAL CE2405-COMPUTER AIDED DESIGN &DRAWING LABORATORY NSCET  –  LAB MANUAL CE2405-COMPUTER AIDED DESIGN &DRAWING LABORATORY Result: Thus the exercise has been designed and drawn by using AutoCAD software package. NSCET  –  LAB MANUAL Practical Applications: Cantilever retaining walls are used to hold the eart h/soil in place behind the inside face. NSCET  –  LAB MANUAL EX NO-2 DESIGN OF COUNTERFORT RETAINING WALL DATE: NSCET  –  LAB MANUAL NSCET  –  LAB MANUAL NSCET  –  LAB MANUAL NSCET  –  LAB MANUAL NSCET  –  LAB MANUAL NSCET  –  LAB MANUAL Result: Thus the exercise has been designed and drawn by using AutoCAD software package. DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL Practical Applications: If the height of the retaining wall exceeds certain limit, the cantilever walls are not economical. Economy can be achieved by providing counterforts which are nothing but vertical beams connected to the stem and the heel slab by reinforcements at regular intervals. The heel slab and the vertical stem are designed as continuous slabs instead of cantilever slabs. If the counterforts are provided in the toe side, the retaining wall is called a  buttress wall .When the height of the stem goes beyond 6m; the thickness of the stem becomes uneconomical in cantilever retaining wall. In this case counterfort retaining walls are used. The counterforts support both the vertical stem as well as heel slab. Counterfort retaining walls are used to hold the earth/soil in place behind the inside face. DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL EX NO-3 DESIGN OF SOLID SLAB BRIDGE CULVERT DATE: DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL Practical Applications: The RC slab-type deck is generally used for small spans. This type of superstructure is economical for spans up to about 8m. Slab decks are simpler to construct due to the easier fabrication of formwork and reinforcements and placement of concrete. Generally, slab decks are supported at the ends on piers or abutments. The deck slab is designed as a one-way slab to support the dead load and live load with impact. Result: Thus the exercise has been designed and drawn by using AutoCAD software package. DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL EX NO-4 DESIGN OF TEE BEAM BRIDGE DECK SLAB DATE: DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL CYCLE  – II DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL EX NO-5 DESIGN OF INTZ TYPE WATER TANK  DATE: DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL CE2405 – COMPUTER AIDED DESIGN AND DRAWING LABORATORY DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL CE2405 – COMPUTER AIDED DESIGN AND DRAWING LABORATORY DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL CE2405 – COMPUTER AIDED DESIGN AND DRAWING LABORATORY RESULT Thus the exercise has been design & drawn by AUTOCADD Software package. Practical Applications: Flat bottomed tank requires more reinforcement in the bottom slab and domed bottom tank requires more reinforcement in the ring beam. In very large size diameter tanks, the size of the bottom slab can be reduced by  providing conical bottom as shown in the figure, which is known as Intze tank. The main advantage of Intze tank is that the outward thrust from the conical part is resisted by the ring beam B3 while the difference between the inward thrust from the bottom of conical dome and the outward thrust from the bottom dome are resisted by ring  beam B2. The proportions of the conical dome and the bottom dome are so arranged that the outward thrust from  bottom dome balances the inward thrust due to the conical dome. DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL CE2405 – COMPUTER AIDED DESIGN AND DRAWING LABORATORY DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL EX NO-6 DESIGN OF CIRCULAR WATER TANK  DATE: DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL Result Thus the exercise has been design & drawn by AUTOCADD software pacage Practical Applications  –  Advantages & Disadvantages of circular tanks Mainly used to store water in both public and private buildings. Has got more usage in all kinds of industries.  Advantages: 1. Less costly the below ground tanks and Easy to clean. 2. Can be raised off ground to increase water pressure. 3. Can detect cracks and leakages easily. 4. Can extract water via gravity and/or pumps. Disadvantages: 5. Affected by weather. 6. Take up space. DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL EX NO-7 DESIGN OF RECTANGULAR WATER TANK  DATE: DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB  LAB MANUAL Result Thus the exercise has been design and drawn by AUTOCADD software package DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL Practical Applications: Water tanks are widely used for storing water, gas and other liquids in railway yards petrol pumping stations DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL EX NO:8 DATE: DESIGN OF RIVETED PLATE GIRDER  DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL CE2405 – COMPUTER AIDED DESIGN AND DRAWING LABORATORY DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING NSCET  –  LAB MANUAL DEPARTMENT OF CIVIL ENGINEERING