DOCSLIB.ORG

Concrete Research Council

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Concrete Research Council AGENDA CONCRETE RESEARCH COUNCIL 2008 Spring Meeting ACI Convention Tuesday, April 1, 2008 Hyatt Regency Century Plaza Hotel Brentwood Room Los Angeles, California 11:30 a.m. to 1:00 p.m. 1.0 APPROVAL OF MINUTES AND AGENDA 1.1 Call to Order 1.2 Approval of Minutes of CRC 2007 Fall Meeting Council is asked to approve the minutes of the meeting held in Puerto Rico on October 16, 2007. 1.3 Approval of Agenda Any items not printed in this agenda will be announced. 1.4 Announcements Chair will make any announcements to the Council. 2.0 MEMBERSHIP - Exhibit A Note that this information is consistent with the ACI Membership Database. Make necessary corrections and forward them to ACI and the CRC Secretary. 3.0 EXECUTIVE COMMITTEE 3.1 ACI Foundation Structure 3.2 Executive Committee Membership 4.0 STATUS OF RESEARCH PROJECTS AND PROPOSALS - Exhibit B Research Coordinator Nanni to make presentation 4.1 CRC Research Projects CRC Project #26 De-Icing Salt Scaling (Jolin, awarded 8/01) CRC Project #37 CFRP Bridge (Grace, awarded 2/05) – Project complete, paper submitted as final report. CRC Project #40 Formwork SCC (Gardner, awarded 4/06) CRC Project #41 Surface Preparations (Bissonnette, awarded 1/07) CRC Project #43 Concrete Modulus (Popovics, awarded 7/06) CRC Project #45 LW Creep/Slip (Hays and Zollo, awarded 7/07) CRC Project #48 Leakage Control (Kianoush, awarded 4/07) 4.2 CRC Research Proposals CRC Proposal #52 by Pantelides (Review Chair – Jirsa) – Chair will update review progress CRC Proposal #50 by Sezen (Review Chair – Murray) – Chair will lead discussion of the review, followed by a ballot to determine funding 4.3 Grant Proposal Guide Proposal Guide updated and posted to ACI website 5.0 CURRENT FINANCIAL STATUS – Exhibit C Secretary will make presentation. 6.0 AWARDS COMMITTEE (Chair: Fowler; Members: Bracci, Johal, Mast, Sprinkel) Chair Fowler to make presentation 7.0 OTHER BUSINESS 7.1 Collaboration with Charles Pankow Foundation: Charles Pankow Foundation Director Bob Tener to make presentation 7.2 Review of Sponsoring Membership list 7.3 Publicity of CRC mission and activities 7.4 Other business 8.0 NEXT MEETING The next meeting will be held during the ACI Fall Convention in St. Louis. 9.0 ADJOURNMENT Copy w/attachments: CRC Members; ACI Foundation Board of Trustees; Concrete Research Council Membership Roster as of 2/29/08 Officers Heitzmann, Richard F (Staff Liaison) American Concrete Institute Sanders, Joseph C (Chair) Career & Professional Department Charles Pankow Builders Ltd 38800 Country Club Dr Ste 100 Farmington Hills, MI 48331‐3439 3280 E Foothill Blvd Phone: (248) 848‐3717 Pasadena, CA 91107‐3180 Fax: (248) 848‐3701 Phone: (626) 304‐1190 E‐mail: [email protected] Fax: (626) 304‐1782 ACI Member E‐mail: [email protected] ACI Member Voting Members Kosmatka, Steven H (Vice Chair) Attiogbe, Emmanuel K Portland Cement Association BASF Admixtures Inc 5420 Old Orchard Rd 23700 Chagrin Blvd Skokie, IL 60077‐1053 Beachwood, OH 44122‐5506 Phone: (847) 972‐9164 Phone: (216) 839‐7215 Fax: (847) 966‐8389 ‐ Fax: (216) 839‐8801 E‐mail: [email protected] E‐mail: [email protected] ACI Member ACI Member Nanni, Antonio (Vice Chair) Busel, John P University of Miami Amer Composites Manufacturers Assoc Dept of Civil Arch & Environ Engrg 157 Fisher Ave / Room 3B Rm 325 Eastchester, NY 10709‐2600 1251 Memorial Dr Phone: (914) 961‐8007 Coral Gables, FL 33146‐2509 Fax: (914) 961‐8004 Phone: (305) 284‐3461 E‐mail: [email protected] Fax: (305) 284‐3492 ACI Member E‐mail: [email protected] ACI Member Cagley, James R Cagley & Associates Inc Bracci, Joseph M (Secretary) 6141 Executive Blvd Texas A & M University Rockville, MD 20852‐3901 Civil Engineering Department Phone: (301) 881‐9050 3136 Tamus Fax: (301) 881‐1125 College Station, TX 77843‐0001 E‐mail: [email protected] Phone: (979) 845‐3750 ACI Member Fax: (979) 845‐6554 E‐mail: j‐[email protected] ACI Member Carter, Paul D Jirsa, James O CH2M Hill Canada Ltd University of Texas at Austin 8th Floor / Highfield Place Bldg 177/PRC 10010‐106 St 10100 Burnet Rd Edmonton, AB T5J 3L8 Canada Austin, TX 78758‐4445 Phone: (780) 409‐9298 Phone: (512) 232‐1706 Fax: (780) 409‐9302 Fax: (512) 471‐1944 E‐mail: [email protected] E‐mail: [email protected] ACI Member ACI Member Dongell, Jonathan E Johal, L S Paul General Cement Co LLC Precast Prestressed Conc Inst P M B 981 Ste 500 Ste 100 209 W Jackson Blvd 11259 E Via Linda Chicago, IL 60606‐6938 Scottsdale, AZ 85259‐4076 Phone: (312) 360‐3213 Phone: 602‐315‐2263 Fax: (312) 786‐0353 Fax: (480) 860‐9141 E‐mail: [email protected] E‐mail: [email protected] ACI Member ACI Member Kahn, Lawrence F Fowler, David W Georgia Institute of Technology University of Texas School of Civil & Env Engineering 1 University Station / #C1755 790 Atlantic Dr Austin, TX 78712‐0277 Atlanta, GA 30332‐0001 Phone: (512) 471‐4498 Phone: (404) 894‐8021 Fax: (512) 471‐3191 Fax: (404) 894‐8014 E‐mail: [email protected] E‐mail: [email protected] ACI Member ACI Member Glassgold, Jill E Mast, Robert F Masonry Resurfacing & Constr Co Inc BERGER/ABAM Engineers Inc Ste 2 Ste 300 33 Stahls Point Rd 33301 9th Ave S Baltimore, MD 21226‐1749 Federal Way, WA 98003‐2600 Phone: (410) 355‐4390 Phone: (206) 431‐2300 Fax: (410) 355‐1365 Fax: (206) 431‐2250 E‐mail: [email protected] E‐mail: [email protected] ACI Member ACI Member Hoff, George C Meininger, Richard C Hoff Consulting LLC FHWA TFHRC 250 Saddlewood Lane 5383 Mad River Ln Clinton, MS 39056 Columbia, MD 21044‐1840 Phone: (601) 925‐4070 Phone: (202) 493‐3191 Fax: (601) 925‐4070 Fax: (202) 493‐3161 E‐mail: [email protected] E‐mail: [email protected] ACI Member ACI Member Mlakar, Paul F Smith, Robert G US Army Engrg Rsrch & Devel Ctr Erico Product Inc 3909 Halls Ferry Rd (CEWES‐SC) 145 Country Club Cir Vicksburg, MS 39180‐6199 Southern Pines, NC 28387‐6501 Phone: (601)634‐3251 Phone: (910) 692‐3934 Fax: (601) 634‐2211 Fax: (910) 692‐3773 E‐mail: [email protected] ACI Member ACI Member Sprinkel, Michael M Mujumdar, Vilas S Virginia Transportation Research Council National Science Foundation 530 Edgemont Rd Ste 585 Charlottesville, VA 22903‐2454 4201 Wilson Blvd Phone: (434) 293‐1941 Arlington, VA 22230‐0002 Fax: (434) 293‐1990 Phone: (703) 292‐7262 E‐mail: [email protected] Fax: (703) 292‐9051 ACI Member E‐mail: [email protected] ACI Member Stoppenhagen,Dan Fluor Enterprises Murray, Myles A 2400 Cliffs Edge Dr Apt 18 Austin, TX 78733‐6030 6301 Perry Park Blvd Phone: (512) 343‐1111 Larkspur, CO 80118‐9747 Fax: (512) 343‐1178 Phone: (303) 681‐2737 ‐ E‐mail: [email protected] Fax: (303) 681‐2719 E‐mail: [email protected] Tikalsky, Paul J ACI Member University of Utah 104 CME Ramsey, Richard A 122 S Central Campus Dr Ramsey & Assoc Consultants Salt Lake City, UT 84112‐0610 102 Harness Ln Phone: (801) 581‐6931 Georgetown, TX 78628‐4881 Fax: (801) 585‐5477 E‐mail: [email protected] E‐mail: [email protected] ACI Member ACI Member Ries,John Zia, Paul Expanded Shale Clay/Slate Inst North Carolina State Univ Ste 102 Dept of CE 2225 Murray Holladay Rd Campus Box 7908 Salt Lake City, UT 84117‐5385 Raleigh, NC 27695‐0001 Phone: (801) 272‐7070 Fax: (919) 515‐7908 Fax: (801) 272‐3377 E‐mail: [email protected] E‐mail: [email protected] ACI Member ACI Member CRC FUNDING STATUS SPREADSHEET Prop. Date Proposal Title Name of PI Organization Total Requested CRC Other Funding Date to Status/Notes No. Pre/Full Affiliation Proposal Amount Grant Sources Committee; Date COMPLETE: Proposal ACI Committee Budget From CRC Amount Recommendation Funding Dispersed; Submitted Received Does Not Indicate Research Status #52 1/22/2008 Repair of Prestressed Concrete Girder Ends Chris Pantelides ACI 440 (Busel) $ 75,000 $ 15,000 Utah DOT 1/24/2008 In Review and Girder Collision Repair #51 10/11/2007 International Summit on Cement Hydration Joe Bernacki $65,000 $20,000 NSF, Canadian sources, 10/11/2007 Not Approved for Kinetics and Modeling industry Funding #50 6/18/2007 DATABASE DEVELOPMENT FOR Halil Sezen ACI 562 (Kahn) $ 33,819 $ 20,000 Ohio State University 7/5/2007 In Review EVALUATION, REPAIR AND REHABILITATION OF RC BUILDING MEMBERS #49 4/13/2007 Effect of Longitudinal and Transverse Michael Brown ACI 445 (Sanders) $92,135 $16,000 Ohio U. 7/3/2007 Review committee Reinforcement on the Shear Strength of decision was to award Continuous RC Beams with compliance with reviewer comments. However, Dr. Brown #48 1/15/2007 Crack and Leakage Control Criteria for Reza Kianoush ACI 350 (Sachdev) $116,370 $30,370 $20,000 Cement Assoc CA, 1/25/2007hlfh Award 4/9/07 i i Concrete Liquid Containing Structures NSERC #47 11/27/2006 Behavior of RC Circular Columns under Riyadh Hindi ACI 341 (Valluvan) $29,900 $19,000 Academic 11/27/2006 Decline funding on Cyclic Torsion 1/25/2007 #46 10/3/2006 Structural Performance Evaluations: A Ronald Zollo ACI 544 (Banthia) $40,000 $20,000 Academic 10/12/2006 Decline funding on FRC Floor Slab System 1/29/07 #45 9/25/2006 Creep Testing and Bond-Slip Investigations Carol Hays ACI 550 (Galinat) $20,000 $20,000 $20,000 n/a 10/12/2006 Award 7/2/07 Applied to Lightweight Concrete using Expanded Polystyrene #44 5/12/2006 Structureal Model Validation of RC Ahsan Kareem ACI 375 (Bracci) $107,600 $21,000 Academic 5/15/2006 Decline funding on Buildings based on In-Situ Measurements 8/29/06 #43 3/21/2006 A Study of Static and Dynamic Modulus of John Popovics ACI 363 (Calderone) $19,952 $19,952 $19,952 Academic 4/16/2006 Award on 7/20/06 Concrete #42 12/22/2005 CLT and AE Methods of In-Situ Load Paul Ziehl ACI 437 (Nanni) ~$120,000 $9,550 $9,550 Academic 3/28/2006 Award on 4/11/06.
Load more

Recommended publications
  • Arched Bridges Lily Beyer University of New Hampshire - Main Campus
    University of New Hampshire University of New Hampshire Scholars' Repository Honors Theses and Capstones Student Scholarship Spring 2012 Arched Bridges Lily Beyer University of New Hampshire - Main Campus Follow this and additional works at: https://scholars.unh.edu/honors Part of the Civil and Environmental Engineering Commons Recommended Citation Beyer, Lily, "Arched Bridges" (2012). Honors Theses and Capstones. 33. https://scholars.unh.edu/honors/33 This Senior Honors Thesis is brought to you for free and open access by the Student Scholarship at University of New Hampshire Scholars' Repository. It has been accepted for inclusion in Honors Theses and Capstones by an authorized administrator of University of New Hampshire Scholars' Repository. For more information, please contact [email protected]. UNIVERSITY OF NEW HAMPSHIRE CIVIL ENGINEERING Arched Bridges History and Analysis Lily Beyer 5/4/2012 An exploration of arched bridges design, construction, and analysis through history; with a case study of the Chesterfield Brattleboro Bridge. UNH Civil Engineering Arched Bridges Lily Beyer Contents Contents ..................................................................................................................................... i List of Figures ........................................................................................................................... ii Introduction ............................................................................................................................... 1 Chapter I: History
    [Show full text]
  • CS 467 Risk Management and Structural Assessment of Concrete Deck Hinge Structures
    Design Manual for Roads and Bridges Highway Structures & Bridges Inspection & Assessment CS 467 Risk management and structural assessment of concrete deck hinge structures (formerly BA 93/09) Revision 1 Summary The use of this document enables the safety and serviceability of concrete hinge deck structures to be assessed and managed, allowing to manage risks and maintain a safe and operational network. Application by Overseeing Organisations Any specific requirements for Overseeing Organisations alternative or supplementary to those given in this document are given in National Application Annexes to this document. Feedback and Enquiries Users of this document are encouraged to raise any enquiries and/or provide feedback on the content and usage of this document to the dedicated Highways England team. The email address for all enquiries and feedback is: [email protected] This is a controlled document. CS 467 Revision 1 Contents Contents Release notes 3 Foreword 4 Publishing information . 4 Contractual and legal considerations . 4 Introduction 5 Background . 5 Assumptions made in the preparation of this document . 5 Abbreviations and symbols 6 Terms and definitions 7 1. Scope 8 Aspects covered . 8 Implementation . 8 Use of GG 101 . 8 2. Risk management process and prioritisation 9 Risk management report . 11 Initial review . 11 Risk assessment for structural assessment . 11 Structural review . 12 Structural assessment . 12 Risk assessment for management . 12 Management plan . 12 Prioritisation of deck hinge structures . 12 3. Initial review 13 4. Risk assessment for structural assessment 14 Risk assessment . 14 Primary risks . 14 Condition risk . 15 Structural risk . 15 Secondary risks . 15 Consequential risk . 16 Vulnerable details risk .
    [Show full text]
  • Northumberland Strait Crossing: Design Development of Precast Prestressed Bridge Structure
    PRECAST CONCRETE SOLVES 100-YEAR-OLD PROBLEM Northumberland Strait Crossing: Design Development of Precast Prestressed Bridge Structure The authors describe the design development process of the $840 million (Canadian dollars) Northumberland Strait Crossing Project from conceptual design in 1987 to the final project design. The 13 km (8 mile) long bridge links Prince Edward Island with New Brunswick and mainland Canada. The current design is based on main bridge spans of 250 m (820 ft) to minimize the number of piers and foundations in the Strait. Each span consists of a continuous precast, prestressed concrete variable depth double cantilever girder Barry Lester, P.Eng. with a length of 190 m (623 ft) and a drop-in segment of 60 m President (197 ft). The design took into consideration unusually heavy SLG Stanley Consultants Inc. vehicle loads, high wind loads, seismic factors, very high Calgary, Alberta icepack forces and possible ship collisions. Precast concrete Canada production began in the summer of 1994 and the main spans will be erected beginning in September 1995. The project is scheduled for completion in the summer of 1997. he Northumberland Strait gotiating the Terms of Confederation, Crossing Project (NSCP) is a the Federal Government of Canada T 13 km (8 mile) long bridge (see promised to promote efficient commu­ Fig. 1), with associated approach nication between the island and the roads and shoreside facilities, joining mainland, a promise that has been ful­ Prince Edward Island to New filled by the payment of annual subsi­ Brunswick and mainland Canada (see dies to support the island ferry service Fig.
    [Show full text]
  • Arched Bridges
    University of New Hampshire University of New Hampshire Scholars' Repository Honors Theses and Capstones Student Scholarship Spring 2012 Arched Bridges Lily Beyer University of New Hampshire - Main Campus Follow this and additional works at: https://scholars.unh.edu/honors Part of the Civil and Environmental Engineering Commons Recommended Citation Beyer, Lily, "Arched Bridges" (2012). Honors Theses and Capstones. 33. https://scholars.unh.edu/honors/33 This Senior Honors Thesis is brought to you for free and open access by the Student Scholarship at University of New Hampshire Scholars' Repository. It has been accepted for inclusion in Honors Theses and Capstones by an authorized administrator of University of New Hampshire Scholars' Repository. For more information, please contact [email protected]. UNIVERSITY OF NEW HAMPSHIRE CIVIL ENGINEERING Arched Bridges History and Analysis Lily Beyer 5/4/2012 An exploration of arched bridges design, construction, and analysis through history; with a case study of the Chesterfield Brattleboro Bridge. UNH Civil Engineering Arched Bridges Lily Beyer Contents Contents ..................................................................................................................................... i List of Figures ........................................................................................................................... ii Introduction ............................................................................................................................... 1 Chapter
    [Show full text]
  • A Survey on Cyclic Response of Unbonded Posttensioned Precast Pier with Ductile Fiber- Reinforced Concrete
    ISSN (Online): 2319-8753 ISSN (Print) : 2347-6710 International Journal of Innovative Research in Science, Engineering and Technology (A High Impact Factor, Monthly, Peer Reviewed Journal) Visit: www.ijirset.com Vol. 7, Issue 1, January 2018 A Survey on Cyclic Response of Unbonded Posttensioned Precast Pier with Ductile Fiber- Reinforced Concrete Vaibhav Dadarao Shinde, Prof. V.S. Thorat M.Tech Student. (Civil-Structural), G.H.Raisoni College of Engineering and Management, Pune, Maharashtra, India Assistant Professor, G.H.Raisoni College of Engineering and Management, Pune, Maharashtra, India ABSTRACT: A precast segmental concrete bridge pier system is being investigated for use in seismic regions. The proposed system uses unbonded posttensioning (UBPT) to join the precast segments and has the option of using a ductile fiber-reinforced cement-based composite (DRFCC) in the precast segments at potential plastic hinging regions. The UBPT is expected to cause minimal residual displacements and a low amount of hysteretic energy dissipation. The DFRCC material is expected to add hysteretic energy dissipation and damage tolerance to the system. Small-scale experiments on cantilever columns using the proposed system were conducted. The two main variables were the material used in the plastic hinging region segment and the depth at which that segment was embedded in the column foundation. It was found that using DFRCC allowed the system to dissipate more hysteretic energy than traditional concrete up to drift levels of 3–6%. Furthermore, DFRCC maintained its integrity better than reinforced concrete under high cyclic tensile compressive loads. The embedment depth of the bottom segment affected the extent of microcracking and hysteretic energy dissipation in the DFRCC.
    [Show full text]
  • 2010 51 Pages 8.8 MB
    Illustrations Key: Six of the more interesting articles in this public- cation year (six illustrations at right) were: • Lunar Industrial Seed 3b- • Alternative sites for Analog Research (abandoned dry mine galleries, quarries, hangars • Eartly road network on Mars • Apollo 13 Essays: “Human Exploration is worth the risk” • The importance of hallways on outposts and settlements • Getting past the Macims of Peenemunde Other Articles of note include: • A Page from the Luna City Yellow Pages • Basalt Fibers industry • Lunar Base Preconstruction • L1 Gateway to the Moon • Platinum MOON (Book Review) • Peter’s Shielding Blog • Pendeulum of views on ancient Mars • Mars Analog Stations • “Thermal Wadis” on the Moon • Expanding on the Google Lunar X-prize technology opportunities • Basalt as the linchpin of lunar industry • More than one settlement - role of trade • Research and Development for the International Lunar Research Park • Is Bigelow tackling only half the challenge of TransHab? • Kalam , NSS, and Space Solar Power challenge • “in this Decade” win the race, lose the war • Fresh look at the Spacesuit Concept • Lunar Cold Traps key to outer solar system • L1 Gateway, 2 • Calcium Reduction for processing moonduat • Mining Asteroids on the Moon • An Asteroid Mission that makes sense • An Avatar Moonbase? • Lavatubes: from skylights to Settlements • Sweet Spot in farside’s Mare Ingenii • Lunarcrete: a concept from two decades ago Read and enjoy! 1 Zubrin: “Earth is to Moon and Mars as Europe is to Greenland and North America” So says Mars Society founder Robert Zubrin in Defining the Lunar Industrial Seed: a recent release. Let’s get real! Earth is to Moon and By Dave Dietzler [email protected] Mars as Europe is to Iceland and Antarctica.
    [Show full text]
  • Western Bridge Engineers' Seminar
    Western Bridge INNOVATIVE SOLUTIONS Engineers’ THAT STAND THE TEST OF TIME Seminar Portland Marriott Downtown Waterfront Portland, Oregon Seminar managed by: Photo courtesy of TriMet K1 KEYNOTE SESSION Overview of the OR-18 Newberg – Dundee Bypass Project landslides along the alignment and the Willamette River and Matthew Stucker • Oregon Department of Transportation additional historic landslides on both sides of the Chehalem Robert Goodrich • OBEC Consulting Engineering Creek. These landslides necessitated construction of two large Tony Snyder • Oregon Department of Transportation tieback and secant pile retaining walls beneath the bypass bridge Scott Schlechter • GRI that crosses the creek. Highway structures include ten bridges, two retaining walls The purpose of the OR18: Newberg-Dundee Bypass Project and various sign structures. Three bridges originally planned (NDBP) is to improve mobility and safety for highway traffi c through south Newberg were combined into a single half mile through Newberg and Dundee and to relieve congestion by long, 16-span structure to eliminate settlement concerns from reducing truck and passenger vehicle traffi c on OR99W. ODOT large embankments. A 3500-foot long noise wall along the east Region 2 led a multi-disciplined team of professionals from ODOT embankment and extending almost 2000 feet onto the east end and area engineering fi rms, working together to complete the of the bridge, incorporated 28 unique architectural formliner planning, permitting, design and construction of this major project. patterns depicting hills and trees. The bridge design team was The overall NDBP is being developed through multiple projects challenged to repurpose surplus PCPS Bulb-T girders that the that accommodate schedule, funding and construction bonding Agency had available from another project that was halted.
    [Show full text]
  • Report 2009/109 Pacific Earthquake Engineering Research Center College of Engineering University of California, Berkeley December 2009
    PACIFIC EARTHQUAKE ENGINEERING RESEARCH CENTER PACIFIC EARTHQUAKE ENGINEERING Simulation and Performance-Based Earthquake Engineering Assessment of Self-Centering Post-Tensioned Concrete Bridge Systems Won K. Lee and Sarah L. Billington Stanford University PEER 2009/109 DECEMBER 2009 Simulation and Performance-Based Earthquake Engineering Assessment of Self-Centering Post-Tensioned Concrete Bridge Systems Won K. Lee Department of Civil and Environmental Engineering Stanford University Sarah L. Billington Department of Civil and Environmental Engineering Stanford University PEER Report 2009/109 Pacific Earthquake Engineering Research Center College of Engineering University of California, Berkeley December 2009 ABSTRACT The focus of this research is on conducting a performance-based earthquake engineering assessment of self-centering bridge columns for structural concrete bridges. Standard highway bridges in highly seismic regions are typically designed for columns to undergo large inelastic deformations during severe earthquakes, which can result in residual displacements. These residual displacements are a measure of post-earthquake functionality in bridges, and can determine whether a bridge remains usable following an earthquake. To mitigate the effects of residual displacements, a number of self-centering systems for bridge columns using unbonded post-tensioned (UBPT) reinforcing steel are proposed and investigated. The research reported herein had three objectives: (1) to assess and develop simulation methods and models that can
    [Show full text]
  • Creep and Cracking of Concrete Hinges: Insight from Centric and Eccentric Compression Experiments
    Materials and Structures (2017) 50:244 https://doi.org/10.1617/s11527-017-1112-9 ORIGINAL ARTICLE Creep and cracking of concrete hinges: insight from centric and eccentric compression experiments Thomas Schlappal . Michael Schweigler . Susanne Gmainer . Martin Peyerl . Bernhard Pichler Received: 9 March 2017 / Accepted: 4 November 2017 / Published online: 22 November 2017 Ó The Author(s) 2017. This article is an open access publication Abstract Existing design guidelines for concrete construction, it is concluded (i) that realistic simula- hinges consider bending-induced tensile cracking, but tion of variable loads requires consideration of the the structural behavior is oversimplified to be time- here-studied time-dependent behavior and (ii) that independent. This is the motivation to study creep and permanent compressive normal forces shall be limited bending-induced tensile cracking of initially mono- by 45% of the ultimate load carrying capacity, in order lithic concrete hinges systematically. Material tests on to avoid damage of concrete hinges under sustained plain concrete specimens and structural tests on loading. marginally reinforced concrete hinges are performed. The experiments characterize material and structural Keywords Integral bridge construction Á creep under centric compression as well as bending- Mechanized tunneling Á Segmented tunnel lining Á induced tensile cracking and the interaction between Tensile cracking of concrete Á Digital image creep and cracking of concrete hinges. As for the latter correlation two aims, three nominally identical concrete hinges are subjected to short-term and to longer-term eccen- tric compression tests. Obtained material and struc- tural creep functions referring to centric compression 1 Introduction are found to be very similar.
    [Show full text]
  • NCHRP014 Final Report.Pdf
    IDEA PROJECT FINAL REPORT Contract NCHRP-94-IDO 1 4 IDEA Program Transportation Research Board National Research Council March 1997 UNRETNFORCED, CENTRALLY PRESTRESSED COLI]MNS AI\D PILES Prepared by: D.V. Reddy, Florida Atlantic University Boca Raton, Florida Paul Csagoly Consultant Clearwater, Florida INNOVATIONS DESERVING EXPLORATORY ANALYSIS (IDEA) PROGRAMS MANAGED BY THE TRANSPORTATION RESEARCH BOARD (TRB) This NCHRP-IDEA investigation was completed as part of the National Cooperative Highway Research Program (NCHRP). The NCHRP-IDEA program is one of the four IDEA programs managed by the Transportation Research Board (TRB) to foster innovations in highway and intermodal surface transportation systems. The other three IDEA program areas are Transit-IDEA, which focuses on products and results for transit practice, in support of the Transit Cooperative Research Program (TCRP), Safety-IDEA, which focuses on motor carrier safety practice, in support of the Federal Motor Carrier Safety Administration and Federal Railroad Administration, and High Speed Rail-IDEA (HSR), which focuses on products and results for high speed rail practice, in support of the Federal Railroad Administration. The four IDEA program areas are integrated to promote the development and testing of nontraditional and innovative concepts, methods, and technologies for surface transportation systems. For information on the IDEA Program contact IDEA Program, Transportation Research Board, 500 5th Street, N.W., Washington, D.C. 20001 (phone: 202/334-1461, fax: 202/334-3471, http://www.nationalacademies.org/trb/idea) The project that is the subject of this contractor-authored report was a part of the Innovations Deserving Exploratory Analysis (IDEA) Programs, which are managed by the Transportation Research Board (TRB) with the approval of the Governing Board of the National Research Council.
    [Show full text]
  • Life Cycle Assessment of Maillart's Bridges
    Politecnico di Torino École polytechnique fédérale de Lausanne Master Course in Civil Engineering Master Thesis: Life Cycle Assessment of Maillart’s Bridges Giulia Pirro Professors: Supervisor: C. Fivet and C. De Wolf R. Ceravolo Academic Year 2018/2019 Life Cycle Assessment of Maillart’s Bridges Giulia Pirro 1 Master Thesis, 2019 Life Cycle Assessment of Maillart’s Bridges Abstract Robert Maillart’s contribution to the community of civil engineers and, most of all, his crucial role in the evolution of the structural art are undeniable. He was able to merge not only mechanical efficiency with innovative solutions but also aesthetic expression as a real artist, always balancing his choices with limited resources both in terms of construction materials and costs. Following these three key parameters he succeeded in producing structures which can be considered a very good combination of structural performance and sustainability. The actual goal is to understand to what extent Maillart’s bridges are indeed sustainable in addition to be efficient and elegant. That is why performing a Life Cycle Assessment (LCA) of his bridges is a valid quantitative confirmation of his achievements. The followed procedure is, thus, based on the computation of construction materials volumes. Starting from the original drawings [1], elaborating them as 3D model, the contribution of concrete and steel is computed. Then, the volume of masonry is also calculated and, where present, the timber for the scaffolding. The goal is to compute the Global Warming Potential (GWP) of each bridge, to normalise them per deck area and to be able to compare them according to different strategies.
    [Show full text]
  • An Investigation of the Characteristics of Plastic Hinges in Reinforced Concrete
    AN INVESTIGATION OF THE CHARACTERISTICS OF PLASTIC HINGES IN REINFORCED CONCRETE. by W.W.L. Chan, B.Sc.(Eng.) A Thesis submitted for the Degree of Doctor of Philosophy in the Faculty of Engineering of the University of London. Imperial College, London- February, 1954. ACKNOWLEDGMENTS. This thesiE was prepared at the Imperial College of Science and Technology, London, under the super- vision of Professor A.L.L. Baker, to whom the author is most grateful for encouragement and guidance. The experimental research work was carried out in the Civil Engineering Laboratories of the College, were much willing cooperation was received from the Workshop and Laboratory technicians, in fabricating special equipment and test specimens. The invaluable assistance given by members of the Concrete Technology research staff, colleagues and friends in recording test readings during the experimental work, is also gratefully acknowledged. Finally, the author is indebted to the kind friends who have helped in the task of proof- reading, typing, stencilling, and photographic re- productions. AN INVESTIGATION OF THE CHARACTERISTICS OF PLASTIC HINGES IN REINFORCED CONCRETE. by W.W.L. Chan . ABSTRACT. This thesis presents analytical and experimeeal work on the strength and deformation of plastic hinges in reinforced concrete, in the light of application to the ultimate load method of design of structures by the Plastic Hinge Theory. The concept of plastic hinges in statically indeterminate structures is first explained with a re- view of the Plastic Hinge Theory. A further comparison of this theory with exact analysis of the plastic be- haviour of structures enables the validity and accuracy of 'the Plastic Hinge Theory to be examined, and the definition of plastic hinge rotations to be established from first principles.
    [Show full text]