Search
Close this search box.
Taylor Devices Logo
Resources

Technical Papers

62. STRUCTURAL CONTROL OF HIGH RISE BUILDING USING A TUNED MASS WITH INTEGRAL HERMETICALLY SEALED, FRICTIONLESS HYDRAULIC DAMPERS

Structural control of large buildings using tuned mass damper systems has gained wide acceptance in recent years. Significant structural performance improvements during wind storms have been realized using both active and passive systems. Disadvantages of employing active systems include high engineering and implementation costs, high maintenance costs, unnecessary system complexities, and the requirement for a continuous and non-interrupted power supply. A design for a passive tuned mass damper system is presented with analytical simulations and component test results. These demonstrate the effectiveness of using a tuned mass in conjunction with a maintenance free, hydraulic damper, having frictionless flexural seals to successfully attenuate the response of a high rise building subject to severe wind inputs.
62. Stuctural ControlDownload

Share This Post

More To Explore

Case Study

17. San Bernardino County Medical Center replacement Project Technical Specifications

This specification covers the set of 186 fluid viscous dampers used on the five buildings of the new San Bernardino County Medical Center located in Colton, California. Three major faults are close to this location. The dampers operate in parallel with elastomeric base isolators, and reduce the required isolator stroke from +/- 48 inches to +/- 22 inches. This specification is very detailed and includes testing requirements.

Read More »
White Paper

18. Seismic Control of Structures with Damped Resonant Appendages

This paper shows how Tuned Mass Dampers can provide seismic protection for structures. These dampers consist of a relatively small mass, a spring, and a dashpot attached to a point of maximum vibration and in resonance with the structure to which they are attached. They are widely used to control the response of buildings, bridges, towers, chimneys and other structures to wind forces, machine vibrations and occupant activity. For the most part however, these dampers have been considered ineffective to reduce the seismic response of structures. This paper demonstrates that such devices can be used effectively to control the seismic response of structures. The paper presents a basic mechanism that explains under what conditions such dampers may work effectively under earthquake loads. It also provides recommendations for the selection of the mass, stiffness and damping factors. It includes the results of a series of numerical and experimental tests which verify that properly designed Tuned Mass Dampers effectively and consistently reduce the response of many types of structural systems to various types of earthquake excitations.

Read More »
Case Study

19. Seismic Damage Control with Passive Energy Devices: A Case Study

This paper presents a theoretical case study of the effectiveness of supplemental passive damping to reduce structural response to seismic excitation. A six story special moment resistant reinforced concrete frame is studied with and without the aid of supplemental dampers. Response predictions are presented for each case. Fluid dampers proved to be a very cost effective way to significantly reduce the seismic response of the building investigated. Preliminary cost estimates indicate that positive damage control can be economically achieved.

Read More »
White Paper

20. Seismic Isolation of Bridges

This unpublished paper by Dr. Michael Constaninou describes the seismic protection of a steel multi-girder highway bridge. Three types of base isolators are included; high damping rubber, lead-rubber and Friction Pendulum. The effect of added viscous damping is also investigated, and is found to greatly enhance the performance of the isolators, even though the dampers required are rather small. This classic paper is hand written by Dr. Constantinou and includes his calculations and his sketches of the bridge, isolation devices and dampers.

Read More »

Craig Winters

Program Manager – Structural Products

 

Responsibilities

  • Manages all aspects of Structural Projects along with providing full customer service/support.
  • Progresses damper projects from contract execution through completion and interactions throughout the life of any structural project.

Experience

  • 30 years Developing and Building the structural damper market, along with design, manufacturing, testing, and selling of fluid damper products.
  • Managed and supervised over 800 damper projects from inception to completion using specialized devices for structural control of civil engineering structures, including hundreds of applications to improve performance under wind, seismic, pedestrian and traffic shock or vibration, for numerous industrial and structural applications, found on/in buildings, bridges, stadiums, towers, hospitals and many other types of structures.
  • Directed and managed a national and international (world-wide) network of representatives, supporting them with business development, sales visits, technical support, advertising, promotion and general marketing efforts for their various marketplaces.
  • Provided Corporate Representation and Presentations at numerous conferences and meetings annually, including those held by SEAOC, ASCE, AIST, EERI, CTBUH, IBC, and many other international bodies.
  • Publications and Presentations include papers on structural design and control of building and bridge structures including response spectrum analysis/design.

Education

  • MS in Civil/Structural Engineering from University at Buffalo
  • BS in Civil Engineering from University at Buffalo
  • BS in Physics from Fredonia State University

Affiliations

  • SEAOC – Structural Engineers Association Of California
  • ASCE – American Society of Civil Engineers
  • AIST – Association for Iron & Steel Technology
  • EERI – Earthquake Engineering Research Institute
  • CTBUH – Council on Tall Buildings and Urban Habitat

Interests

  • Running 5k and Half-Marathons, Snow-Skiing, Boating and Slalom Waterskiing, Mountain Biking, Hiking, Kayaking and Canoeing, Camping, Sport-Bike (Motorcycle) Riding, and Craft-Beer “tasting”.  Winter weekends are spent coaching Downhill Ski Racing to youths.

Marcus Freeman

Technical Director

Responsibilities

  • Lead technical support efforts for structural engineers in areas of structural analysis with dampers, damper design, peer review and damper implementation (construction) for both new and retrofitted structures
  • Develop technical resources and guidelines for Taylor Damped Moment Frame design
  • Lead Research and Development efforts in advancing Damper implementation in building design

Experience

  • 8 years Structural Engineering design, analysis, and construction administration work with Magnusson Klemencic Associates
  • Lead design engineer experience on high rise residential, convention center, and aviation buildings in high seismic location
  • Registered Professional Engineer in Washington
  • Proficient with the design and detailing of steel moment frames, brace frames, and shear wall systems

Education

  • Virginia Polytechnic Institute and State University Master of Science, Civil Engineering, 2015 Specialization: Structures
  • Virginia Polytechnic Institute and State University Bachelor of Science, Civil Engineering, 2013

Affiliations

  • Structural Engineering Engagement and Equity Committee (NCSEA), Chair, 2021-present
  • SEAW Young Member Group, President, 2017-2018
  • NCSEA Susan Ann “Susie” Jorgensen Presidential Leadership Award – Nov 2023 Issued by National Council of Structural Engineers Associations (NCSEA)

Interests

  • Travel, live music, wine and bourbon tasting, cooking, vinyl collecting

Anthony Tiapon

Senior Project Engineer

Responsibilities

  • Supports clients and engineers with damper design by answering technical questions, providing ETABS support and providing pricing.
  • Performs Non-linear Response History Analysis in ETABS for verifying damper designs.
  • Generates educational materials regarding damper design.

Experience

  • 6 years of structural engineering design work at CYS Structural Engineers, Inc.
  • Experience with seismic and wind design.
  • Structural design experience in retrofit, wood, and steel structures.
  • Registered Professional Engineering in California.

Education

  • B.S. in Architectural Engineering, California Polytechnical State University, San Luis Obispo – 2016

Affiliations

  • Structural Engineers Association of California (SEAOC)
  • National Council of Structural Engineers Association (NCSEA)

Interests

  • Running, working out, hiking, going to concerts and museums, spending time with my dog.
Ben Covich Headshot

Ben Covich

Senior Project Engineer

Responsibilities

  • Assists engineers and clients with damper design, technical support, and pricing.
  • Conduct Non-linear Time History Analysis to verify damper designs.
  • Manage building, bridge and other infrastructure projects from inception to hand off at production.

Experience

  • Design of damper systems using ETABs and Modal Strain Energy methods.
  • Base isolation design (Lead Rubber Bearings and Sliding Pendulum Bearings).
  • Managed full scale testing projects at UCSD for Lead Rubber Bearings and iRDT dampers.
  • Designed, project managed, and full scale tested 2D and 3D isolation platforms at The University of Nevada Reno (UNR).
  • Seismic design of shear wall, reinforced concrete and steel structures in New Zealand.
  • Auto CAD drafting
  • Qualified New Zealand Carpenter focusing on renovation of high end residential homes, Historic Buildings and large scale commercial projects.

 

Education

  • Bachelor of Engineering (Civil), B.E (Hons), The University of Auckland – 2018
  • New Zealand Diploma of Engineering, N.Z.D.E (Civil) – 2014
  • New Zealand Certificate in Carpentry – 2012
  • Seismic Isolation Course CEE729 at UNR – 2020

Affiliations

  • New Zealand Society of Earthquake Engineers (NZSEE)
  • Structural Engineers Association of California (SEAOC)
  • National Council of Structural Engineers Association (NCSEA)
  • Earthquake Engineering Research Institute (EERI)

Interests

  • Anything Motorsport, Midget Racing in California and maintaining a racecar (2023 USAC Western States – Rookie of the Year) Motorcross, BBQ, House Project, Travel

Nathan Canney

Director of Structural Engineering

Responsibilities

  • Train and manage structural engineering team at Taylor to assist engineers in analysis with dampers.
  • Educational outreach and support for structural engineers interested in using dampers for seismic or wind applications.

Experience

  • Structural engineering design work at Magnusson Klemencic Associates (2 years), CYS Structural Engineers, Inc.(3 years) and various internships at Parsons Brinckerhoff Quade & Douglas, MA Wright Engineering, and Forel/Elsesser Engineers, Inc.
  • Registered Professional Engineering in California
  • Experience in structural design for new construction and retrofits, steel, concrete, wood and masonry structures. Design experience for seismic and wind using US and international codes.
  • Faculty in the Department of Civil and Environmental Engineering at Seattle University for four years, teaching undergraduate and graduate students courses including Statics, Mechanics of Materials, Residential Design, Ethics, Performance Based Earthquake Engineering and Building Systems.
  • Research focused on engineering education, engineering ethics and identity formation. Over 70 peer reviewed publications in conference proceedings and journals.

Education

  • Ph.D. in Civil Engineering, University of Colorado, Boulder – 2013
  • M.S. in Structural Engineering, Stanford University – 2010
  • B.S. in Civil Engineering, B.S. in Applied Mathematics, Seattle University – 2006

Affiliations

  • Structural Engineers Association of Central California (SEAOCC)
  • American Society of Civil Engineering (ASCE)
  • American Society for Engineering Education (ASEE)

Interests

  • Woodworking, family time, cooking spectacular meals, backpacking, travel and photography.

Konrad Eriksen

Structural Products Sales Director

Responsibilities

  • Heads up the Structural Business Development Team.
  • Develops Damper projects in the building, bridge and infrastructure markets from concept design through to contract execution.

Experience

  • 35 year’s experience in selling, development and manufacturing of dampers and base isolation systems throughout the world.
  • Built and ran Base Isolation and damper manufacturing facilities in New Zealand and USA.
  • Built and ran a BRB manufacturing plant in USA, contracting to Nippon Steel.
  • Developed and patented 2D and 3D isolation systems for equipment and supercomputers.
  • Introduced, manufactured, and tested viscous dampers through a technology transfer with a Japanese partner for the CPMC Hospital, CA.
  • Designed and built test rigs and presses with up to 4400-ton capacity.
  • 10 years of commercial construction engineering in Wellington, New Zealand specializing in constructability challenges, foundation design, concrete durability.
  • Extensive background in rigging, erecting tower cranes and structural steel.  Designed and executed heavy lifts.

Education

  • Bachelor of Engineering (civil) Canterbury University, New Zealand

Affiliations

  • Structural Engineers Association of Northern California (SEAOC)
  • Earthquake Engineering Research Institute (EERI)

Interests

  • Enduro motorcycling, restoring, building and riding Ducati motorcycles, playing guitar, fishing, shooting, hunting, woodworking.

Investor Information

2022 Q1 Important Links

 

  1. XSD
  2. XML_cal
  3. XML_ lab
  4. XML_ pre

Investor Information

2021 Q4 Important Links

  1. XSD
  2. XML_cal
  3. XML_ lab
  4. XML_ pre

Investor Information

2021 Q3 Important Links

  1. XSD
  2. XML_cal
  3. XML_ lab
  4. XML_ pre

Investor Information

2021 Q2 Important Links

  1. XSD
  2. XML_cal
  3. XML_ lab
  4. XML_ pre

Investor Information

2021 Q1 Important Links

  1. XSD
  2. XML_cal
  3. XML_ lab
  4. XML_ pre

Investor Information

2020 Q4 Important Links

  1. XSD
  2. XML_cal
  3. XML_ lab
  4. XML_ pre

Investor Information

2020 Q3 Important Links

  1. XSD
  2. XML_cal
  3. XML_ lab
  4. XML_ pre

Thank You!

A Taylor Devices Representative will be in touch shortly.

Investor Information

2020 Q1 Important Links

  1. XSD
  2. XML_cal
  3. XML_ lab
  4. XML_ pre

Investor Information

2019 Q4 Important Links

  1. XSD
  2. XML_cal
  3. XML_ lab
  4. XML_ pre
  5. XML_def