logging in or signing up modeling Pravez Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 355 Category: Entertainment License: All Rights Reserved Like it (2) Dislike it (0) Added: October 18, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... By: a7aa (13 month(s) ago) thxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Saving..... Post Reply Close Saving..... Edit Comment Close By: a7aa (13 month(s) ago) thx Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript Model Based Thin-Shell Structures: Model Based Thin-Shell Structures What Happened to Them?Slide2: Eiffel Tower - Paris, France Analysis Based Turning Torso - Santiago Calatrava Model Based STRUCTURAL ARTSlide3: Analysis Based Structural ArtSlide4: The Market Hall in Leipzig, Germany (1929) by Franz Dischinger Analysis Based Structural ArtSlide5: Analysis Based Structural ArtSlide6: Petroleum Coke Bulk Storage - Pittsburg, California OPAC Consulting EngineersSlide7: Model Based Structures Sea-Rose Sheets of the Giant Sea-Rose Victoria in the AmazonSlide8: Model Based Structures Ribbed Support in Roofs and PlantsSlide9: Was Nervi inspired by Nature?Slide10: Eduardo Torroja Born August 27, 1899 Spanish engineer who was considered a pioneer in concrete-shell structures Believed identity of form and structure could be realized with thin vaults of concrete Graduated in 1923 Died June 15, 1961Slide11: Pierre Lardy Born in 1903 Attended Federal Institute of Technology in 1923 Hired Heinz Isler in 1951 Proponent for model based designs Emphasized the importance of aesthetics for full-scale structures Died in 1958Slide12: Heinz Isler Born July 26, 1926 in Zollikon, Switzerland Attended Federal Technical Institute Graduated in 1950 with a degree in Civil Engineering Only student out of 100+ to choose thin-shells for senior design Worked as an assistant to Pierre Lardy Based most of his structures on smaller models Stated there were 3 ways to arrive at shell shapes, (Freely shaped hills, Rubber Balloon Membranes, and Reversed Hanging ClothsSlide13: Hanging membranes by Heinz IslerSlide15: Thin-Shell Roof over gas station in Bern-Zurich Highway Slide16: Wyss Garden CenterSlide17: Indoor Tennis Center in Heimberg, SwitzerlandSlide18: Indoor Tennis Center in Heimberg, SwitzerlandSlide19: Indoor Tennis Center in Heimberg, SwitzerlandSlide20: Ever wonder what the inside looks like? Indoor Tennis Center in Heimberg, Switzerland Now you knowSlide21: The barrel shell to be described is that in the set of programs SHELLS.zip, which may be downloaded from this web site. It is a single barrel with an edge beam on the left and the valley it is a section of symmetry. so the analysis is for two barrels. Layout of joints and members is shown in the sketch. The shell is divided into 12 equal angle members plus the edge beam. The dimensions that must be used are feet for distances, and pounds for weights. The resulting deflections and stresses are as noted in the output. The coordinates and dimensions were created by the program, CIRCLES.BAS which is also included. These same values are given for the built-in example. Dimensions and loads are as follows: Span = 60 ft., Width=30 ft., Rise=6.5 ft The radius is 20.55 ft., and the end slopeis 46.86 degrees. This is about the maximum suitable slope of a shell. Shell thickness=0.29 ft (3.5 in.), Edge beam 1ft.x 3 ft. Length of shell segment=2.802 ft. Weight of concrete=150 pcf, Weight of one segment=122.9 Snow load, (per length of segment)=25 psf. One segment=71.4 p Extra load has been placed at the valleys to compensate for the in-fill. Input for the program is listed at location 5,000 as follows: 5000 DATA SINGLE BARREL WITH EDGE BEAM 5010 ' Span, E, No. of members, No. of joints 5020 DATA 60,432E+6,13,14 5030 ' Generate member/joint relations (Y?N) ? 5040 DATA "Y" 5050 ' Member/joint relations: Member, X joint, Y joint. 5060 ' Special supports: Joint, X, Y, Z, Phi, (0 to exit) 5070 DATA 14,0,1,1,0, 0 5080 ' Member, thickness, Special I value, (0 for no special value) 5090 DATA 1,1.00,0, 2,.290,0, 4,.290,0, 4,.290,0, 5,.290,0, 6,.290,0 5100 DATA 7,.290,0, 8,.290,0, 9,.29,0, 10,.29,0, 11,.29,0, 12,.29,0 5110 DATA 13,.29,0 5120 ' Do some members have no longitudinal stiffness, (List number) 5130 DATA 0 5140 ' Coordinates: Joint. X, Y 5150 DATA 1,0,0, 2,0,3, 3,2.047,4.908, 4,4.339,6.520, 5,6.826,7.805 5160 DATA 6,9.465,8.741, 7,12.207,9.309, 8,15.000,9.500 5170 DATA 9,17.79,9.31, 10,20.53,8.74, 11,23.174,7.805, 12,25.66,6.52 5180 DATA 13,27.951,4.908, 14,30,3 5190 ' Loads: Joint, X, Y, (0 to Exit) 5200 DATA 1,0,225, 2,0,322, 3,0,194, 4,0,194, 5,0,194, 6,0,194 5210 DATA 7,0,194, 8,0,194, 9,0,194, 10,0,194, 11,0,194, 12,0,184, 0 Slide22: Petroleum Coke Bulk Storage - Pittsburg, California OPAC Consulting EngineersSlide23: Twisting TorsoSlide24: Turning Torso by Santiago Calatrava Turning Torso Twisting TorsoSlide25: Ice Shell Creation at Cornell University (1999) by Dr. Mark Valenzuela and Professor Arwade himselfSlide26: Ice Shells by students at The Johns Hopkins University (Inspired by Heinz Isler)Slide27: Watch a Clip!Slide28: If a picture is worth a 1000 words, then a simple model is worth a 1000 calculations You do not have the permission to view this presentation. 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modeling Pravez Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 355 Category: Entertainment License: All Rights Reserved Like it (2) Dislike it (0) Added: October 18, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... By: a7aa (13 month(s) ago) thxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Saving..... Post Reply Close Saving..... Edit Comment Close By: a7aa (13 month(s) ago) thx Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript Model Based Thin-Shell Structures: Model Based Thin-Shell Structures What Happened to Them?Slide2: Eiffel Tower - Paris, France Analysis Based Turning Torso - Santiago Calatrava Model Based STRUCTURAL ARTSlide3: Analysis Based Structural ArtSlide4: The Market Hall in Leipzig, Germany (1929) by Franz Dischinger Analysis Based Structural ArtSlide5: Analysis Based Structural ArtSlide6: Petroleum Coke Bulk Storage - Pittsburg, California OPAC Consulting EngineersSlide7: Model Based Structures Sea-Rose Sheets of the Giant Sea-Rose Victoria in the AmazonSlide8: Model Based Structures Ribbed Support in Roofs and PlantsSlide9: Was Nervi inspired by Nature?Slide10: Eduardo Torroja Born August 27, 1899 Spanish engineer who was considered a pioneer in concrete-shell structures Believed identity of form and structure could be realized with thin vaults of concrete Graduated in 1923 Died June 15, 1961Slide11: Pierre Lardy Born in 1903 Attended Federal Institute of Technology in 1923 Hired Heinz Isler in 1951 Proponent for model based designs Emphasized the importance of aesthetics for full-scale structures Died in 1958Slide12: Heinz Isler Born July 26, 1926 in Zollikon, Switzerland Attended Federal Technical Institute Graduated in 1950 with a degree in Civil Engineering Only student out of 100+ to choose thin-shells for senior design Worked as an assistant to Pierre Lardy Based most of his structures on smaller models Stated there were 3 ways to arrive at shell shapes, (Freely shaped hills, Rubber Balloon Membranes, and Reversed Hanging ClothsSlide13: Hanging membranes by Heinz IslerSlide15: Thin-Shell Roof over gas station in Bern-Zurich Highway Slide16: Wyss Garden CenterSlide17: Indoor Tennis Center in Heimberg, SwitzerlandSlide18: Indoor Tennis Center in Heimberg, SwitzerlandSlide19: Indoor Tennis Center in Heimberg, SwitzerlandSlide20: Ever wonder what the inside looks like? Indoor Tennis Center in Heimberg, Switzerland Now you knowSlide21: The barrel shell to be described is that in the set of programs SHELLS.zip, which may be downloaded from this web site. It is a single barrel with an edge beam on the left and the valley it is a section of symmetry. so the analysis is for two barrels. Layout of joints and members is shown in the sketch. The shell is divided into 12 equal angle members plus the edge beam. The dimensions that must be used are feet for distances, and pounds for weights. The resulting deflections and stresses are as noted in the output. The coordinates and dimensions were created by the program, CIRCLES.BAS which is also included. These same values are given for the built-in example. Dimensions and loads are as follows: Span = 60 ft., Width=30 ft., Rise=6.5 ft The radius is 20.55 ft., and the end slopeis 46.86 degrees. This is about the maximum suitable slope of a shell. Shell thickness=0.29 ft (3.5 in.), Edge beam 1ft.x 3 ft. Length of shell segment=2.802 ft. Weight of concrete=150 pcf, Weight of one segment=122.9 Snow load, (per length of segment)=25 psf. One segment=71.4 p Extra load has been placed at the valleys to compensate for the in-fill. Input for the program is listed at location 5,000 as follows: 5000 DATA SINGLE BARREL WITH EDGE BEAM 5010 ' Span, E, No. of members, No. of joints 5020 DATA 60,432E+6,13,14 5030 ' Generate member/joint relations (Y?N) ? 5040 DATA "Y" 5050 ' Member/joint relations: Member, X joint, Y joint. 5060 ' Special supports: Joint, X, Y, Z, Phi, (0 to exit) 5070 DATA 14,0,1,1,0, 0 5080 ' Member, thickness, Special I value, (0 for no special value) 5090 DATA 1,1.00,0, 2,.290,0, 4,.290,0, 4,.290,0, 5,.290,0, 6,.290,0 5100 DATA 7,.290,0, 8,.290,0, 9,.29,0, 10,.29,0, 11,.29,0, 12,.29,0 5110 DATA 13,.29,0 5120 ' Do some members have no longitudinal stiffness, (List number) 5130 DATA 0 5140 ' Coordinates: Joint. X, Y 5150 DATA 1,0,0, 2,0,3, 3,2.047,4.908, 4,4.339,6.520, 5,6.826,7.805 5160 DATA 6,9.465,8.741, 7,12.207,9.309, 8,15.000,9.500 5170 DATA 9,17.79,9.31, 10,20.53,8.74, 11,23.174,7.805, 12,25.66,6.52 5180 DATA 13,27.951,4.908, 14,30,3 5190 ' Loads: Joint, X, Y, (0 to Exit) 5200 DATA 1,0,225, 2,0,322, 3,0,194, 4,0,194, 5,0,194, 6,0,194 5210 DATA 7,0,194, 8,0,194, 9,0,194, 10,0,194, 11,0,194, 12,0,184, 0 Slide22: Petroleum Coke Bulk Storage - Pittsburg, California OPAC Consulting EngineersSlide23: Twisting TorsoSlide24: Turning Torso by Santiago Calatrava Turning Torso Twisting TorsoSlide25: Ice Shell Creation at Cornell University (1999) by Dr. Mark Valenzuela and Professor Arwade himselfSlide26: Ice Shells by students at The Johns Hopkins University (Inspired by Heinz Isler)Slide27: Watch a Clip!Slide28: If a picture is worth a 1000 words, then a simple model is worth a 1000 calculations