Normas Técnicas de Engenharia de Estruturas e Fundações

 Veja a relação das principais normas técnicas nacionais e internacionais necessárias para o projeto, análise e avaliação de estruturas e fundações, e utilizadas nos nossos serviços:

Normas nacionais

Ações em Estruturas de Edificações

• NBR 6120:2019 – Ações para o cálculo de estruturas de edificações
• NBR 6123:1988 – Forças devidas ao vento em edificações
• NBR 8681:2003 – Ações e segurança nas estruturas

Projeto e Execução de Estruturas de Concreto 

• NBR 6118:2014 – Projeto de estruturas de concreto — Procedimento
• NBR 9062:2017 – Projeto e execução de estruturas de concreto pré-moldado
• NBR 14931:2004 – Execução de estruturas de concreto – Procedimento
• NBR 15200:2012 – Projeto de estruturas de concreto em situação de incêndio
• NBR 16935:2021 – Projeto de estruturas de concreto reforçado com fibras – Procedimento

Projeto de estruturas de aço e estruturas mistas de aço e concreto

• NBR 5884:2013 – Perfil I estrutural de aço soldado por arco elétrico – Requisitos gerais
• NBR 8800:2008 – Projeto de estruturas de aço e de estruturas mistas de aço e concreto de edifícios
• NBR 14762:2010 – Dimensionamento de estruturas de aço constituídas por perfis formados a frio
• NBR 15980:2020 – Perfis laminados de aço para uso estrutural – Dimensões e tolerâncias
• NBR 16239:2013 – Projeto de estruturas de aço e de estruturas mistas de aço e concreto de edificações com perfis tubulares

Pontes e Viadutos

• NBR 7187:2021 – Projeto de pontes, viadutos e passarelas de concreto
• NBR 7188:2013 – Carga móvel rodoviária e de pedestres em pontes, viadutos, passarelas e outras estruturas
• NBR 7189:1985 – Cargas móveis para projeto estrutural de obras ferroviárias (CANCELADA E NÃO SUBSTITUÍDA)
• NBR 9452:2019 – Inspeção de pontes, viadutos e passarelas de concreto – Procedimento
• NBR 16694:2020 – Projeto de pontes rodoviárias de aço e mistas de aço e concreto
• NBR 19783:2015 – Aparelhos de apoio de elastômero fretado – Especificações e métodos de ensaio

Muros de Arrimo

• DNER-ES-AO 39/71 – Muros de Arrimo – Especificações Gerais para Obras Rodoviárias – Obras de Arte

Estruturas portuárias

• NBR 9782:1987 – Ações em Estruturas Portuárias, Marítimas e Fluviais (CANCELADA E NÃO SUBSTITUÍDA)
• NBR 13246:1995 – Planejamento Portuário – Aspectos Náuticos (CANCELADA E NÃO SUBSTITUÍDA)

Ensaios não destrutivos em estruturas metálicas e soldas

• NBR NM 315:2017 – Ensaios Não Destrutivos – Ensaio Visual – Requisitos e Práticas Recomendadas
• NBR 15691:2009    –  Ensaios não destrutivos – Líquido penetrante – Prática padronizada
• NBR NM 334:2012 – Ensaios não destrutivos – Líquidos penetrantes – Detecção de descontinuidades
• NBR NM 342:2014 – Ensaios não destrutivos – Partículas Magnéticas – Detecção de descontinuidades
• NBR NM 336:2012 – Ensaios não destrutivos – Ultrassom em solda – Procedimento

Ensaios referentes às propriedades do concreto

• NBR  5738:2015 – Concreto Procedimento para moldagem e cura de corpos de prova
• NBR  5739:2018 – Concreto – Ensaios de compressão de corpos-de-prova cilíndricos
• NBR  7584:2012 – Concreto endurecido – Avaliação da dureza superficial pelo esclerômetro de reflexão
• NBR  7680-1:2015 – Concreto – Extração, preparo, ensaio e análise de testemunhos de estruturas de concreto. Parte 1: Resistência a compressão axial
• NBR  7680-2:2015 – Concreto – Extração, preparo, ensaio e análise de testemunhos de estruturas de concreto. Parte 2: Resistência à tração na flexão
• NBR  8522-1:2021 – Concreto endurecido – Determinação dos módulos de elasticidade e de deformação. Parte 1: Módulos estáticos à compressão
• NBR  8522-2:2021 – Concreto endurecido – Determinação dos módulos de elasticidade e de deformação. Parte 2: Módulo de elasticidade dinâmico pelo método das frequências naturais de vibração
• NBR  8802:2019 – Concreto endurecido – Determinação da velocidade de propagação de onda ultrassônica
• NBR 12655:2022 – Concreto de cimento Portland – Preparo, controle, recebimento e aceitação – Procedimento

Provas de Carga em Estruturas

• NBR 9607:2019 –  Prova de carga estática em estruturas de concreto – Requisitos e procedimentos
• NBR 15307:2006 – Ensaios não destrutivos – Provas de cargas dinâmicas em grandes estruturas – Procedimento

Geotecnia e Fundações

• NBR 5629:2018 – Tirantes ancorados no terreno – Projeto e execução
• NBR 6122:2022 – Projeto e execução de fundações 
• NBR 6484:2020 – Sondagem de simples reconhecimento  com SPT – Método de Ensaio
• NBR 6489:2019 – Solo – Prova de Carga Estática em Fundação Direta
• NBR 6502:2022 – Solos e Rochas – Terminologia
• NBR 8036:1983 – Programação de sondagens de simples reconhecimento dos solos para fundações de edifícios
• NBR 8044:2018 – Projeto geotécnico – Procedimento
• NBR 9061:1985 – Segurança de escavação a céu aberto – Procedimento
• NBR 11682:2009 – Estabilidade de Encostas
• NBR 12069:1991 – Solo – Ensaio de penetração de cone in situ (CPT)  (CANCELADA E NÃO SUBSTITUÍDA)
• NBR 12131:2006 – Estacas – Prova de carga estática – Método de ensaio (CANCELADA E SUBSTITUÍDA POR NBR 16903:2020)
• NBR 13208:2007 – Estacas – Ensaio de Carregamento Dinâmico
• NBR 16258:2014 – Estacas pré-fabricadas de concreto – Requisitos
• NBR 16797:2020 – Medida de torque em ensaios SPT durante a execução de sondagens de simples reconhecimento à percussão – Procedimento
• NBR 16903:2020 – Solo – Prova de carga estática em fundação profunda
• NBR 17007:2021 – Soldagem de aços para emendas de estacas de fundações – Requisitos

Barras, fios e cordoalhas de aço para armaduras de estruturas de concreto armado e protendido 

• NBR 07480:2022 – Aço destinado às armaduras para estruturas de concreto armado — Requisitos
• NBR 07481:2022 – Tela de aço soldada nervurada para armadura de concreto – Requisitos
• NBR 07482:2020 – Fios de aço para estruturas de concreto protendido – Especificação
• NBR 07483:2021 – Cordoalhas de aço para estruturas de concreto protendido – Especificação
• NBR 07484:2020 – Barras, cordoalhas e fios de aço destinados a armaduras de protensão – Método de ensaio de relaxação isotérmica

Levantamentos, Inspeção predial e Manutenção de Edificações 

• NBR 5674:2012 – Manutenção de edificações – Requisitos para o sistema de gestão de manutenção
• NBR 13752:1996 – Perícias de engenharia na construção civil 
• NBR 13133:2021 – Execução de levantamento topográfico – Procedimento
• NBR 14645-1:2000 – Elaboração do “como construído” (as built) para edificações. Parte 1: Levantamento planialtimétrico e cadastral do imóvel urbanizado com área até 25000m2, para fins de estudos, projetos e edificação – Procedimento
• NBR 16747:2020 – Inspeção predial – Diretrizes, conceitos, terminologia e procedimento
• NBR 17170:2022 – Edificações – Garantias – Prazos recomendados e diretrizes

Normas Internacionais

 

Aços Estruturais 

• ASTM A36/A36M-19 – Standard Specification for Carbon Structural Steel
• ASTM A108-18 – Standard Specification for Steel Bar, Carbon and Alloy, Cold-Finished
• ASTM A242/A242M-13 (2018) – Standard Specification for High-Strength Low-Alloy Structural Steel
• ASTM A500/A500M-21a – Standard Specification for Cold-Formed Welded And Seamless Carbon Steel Structural Tubing In Rounds And Shapes
• ASTM A572/A572M-21 – Standard Specification for High-Strength Low-Alloy Columbium-Vanadium Structural Steel
• ASTM A588/A588M-19 – Standard Specification for High-Strength Low-Alloy Structural Steel, Up To 50 Ksi [345 MPa] Minimum Yield Point, With Atmospheric Corrosion Resistances

Parafusos, porcas, arruelas e rebites

• ASTM A193/A193M-15 – Standard Specification For Alloy-Steel And Stainless Steel Bolting For High Temperature Or High Pressure Service And Other Special Purpose Applications
• ASTM A194/A194M-22a – Standard Specification For Carbon Steel, Alloy Steel, And Stainless Steel Nuts For Bolts For High Pressure Or High Temperature Service, Or Both
• ASTM A307-21 – Standard Specification For Carbon Steel Bolts, Studs, And Threaded Rod 60000psi Tensile Strength
• ASTM A325M-14 – Standard Specification For Structural Bolts, Steel, Heat Treated 830 MPa Minimum Tensile Strength (SUBSTITUÍDA POR ASTM F3125/F3125M-22)
• ASTM A490M-14 – Standard Specification For High-Strength Steel Bolts, Classes 10.9 And 10.9.3, For Structural Steel Joints (SUBSTITUÍDA POR ASTM F3125/F3125M-22)
• ASTM A502-03 – Standard Specification for Rivets, Steel, Structural
• ASTM F436/F436M-19 – Standard Specification for Hardened Steel Washers Inch and Metric Dimensions
• ASTM F3125/F3125M-22 – Standard Specification For High Strength Structural Bolts And Assemblies, Steel And Alloy Steel, Heat Treated, Inch Dimensions 120 Ksi And 150 Ksi Minimum Tensile Strength, And Metric Dimensions 830 MPa And 1040 MPa Minimum Tensile Strength

Projeto de Estruturas Metálicas

• ANSI/AISC 360-22 – Specification for Structural Steel Buildings
• ANSI/AISC 303-22 – Code of Standard Practice for Steel Buildings and Bridges

Projeto de Estruturas de Concreto Armado e Protendido

• ACI CODE-318-19(22) – Building Code Requirements for Structural Concrete and Commentary (reapproved 2022)
• PCI MNL-120-17 (8th Edition) – Design Handbook – Precast and Prestressed Concrete

Projeto, Construção e Manutenção de Pontes e Viadutos

• AASHTO LRFDBDS-9 (9th edition) – Bridge Design Specifications 
• AASHTO LRFDCONS-4-M (4th edition) – Bridge Construction Specifications 
• AREMA 2022 MRE – Chapter 08, Concrete Structures and Foundations
• AREMA 2022 MRE – Chapter 10, Structures, Maintenance, and Construction
• AREMA 2022 MRE – Chapter 15, Steel Structures
• AREMA  BIH-2 (2nd Edition) – Bridge Inspection Handbook
• BS 5400 – Steel, concrete and composite bridges  

Estruturas Portuárias e Obras Costeiras

• ACI 357.3r-14 – Guide for Design and Construction of Waterfront and Coastal Concrete Marine Structures
• BS 6349-1:2000 – Maritime works – Part 1: Code of Practice for General Criteria
• BS 6349-1-1:2013 – Maritime works – Part 1-1: General – Code of Practice for planning and design for operations
• BS 6349-1-2:2016 – Maritime works – Part 1-2: General – Code of Practice for assessment of actions
• BS 6349-1-3:2021 – Maritime works – Part 1-3: General – Code of Practice for geotechnical design
• BS 6349-1-4:2021 – Maritime works – Part 1-4: General – Code of Practice for materials
• BS 6349-2:2019 – Maritime works – Part 2: Code of Practice for the Design of Quay Walls, Jetties and Dolphins
• BS 6349-4:2014 – Maritime works – Part 4: Code of Practice for Design of Fendering and Mooring Systems
• BS 6349-7:1991 – Maritime works – Part 7: Guide to the Design and Construction of Breakwaters
• BS 6349-8:2007 – Maritime works – Part 8: Maritime structures Code of practice for the design of Ro-Ro ramps, linkspans and walkways
• ISO 21650:2007 – Actions from Waves and Currents on Coastal Structures 
• PIANC 2002 – Report of Working Group 33 – Guidelines for the Design of Fenders Systems 
• PIANC 2003 – Report of Working Group 28 – Breakwaters with Vertical and Inclined Concrete Walls
• PIANC 2023 – Report of Working Group 235 – Ship Dimensions and Data for Design of Marine Infrastructure
• ROM 3.1 – 99 – Design of the Maritime Configuration of Ports, Approach Channels and Harbour Basins
• UFC 4-150-08 – Mooring Hardware Inspection
• UFC 4-152-01 – Design: Piers and Wharves
• USACE – SPM 1984 – Shore Protection Manual – Volumes I and II
• USACE – EM 1110-1-2908 – Rock Foundations
• USACE – EM 1110-2-1100 – Coastal Engineering Manual
• USACE – EM 1110-2-1614 – Design of Coastal Revetments, Seawalls, and Bulkheads
• USACE – EM 1110-2-2502 – Retaining and Flood Walls
• USACE – EM 1110-2-2504 – Design of Sheet Pile Walls
• U.S. Army Engineer Waterways Experiment Station – CETN-III-38 3 /88 – Coastal Engineering Technical Note – Breaking Wave Forces on Walls

Silos e Moegas Portuárias

• DIN 1055-6:2005-03 – Actions on structures – Part 6: Design loads for buildings and loads in silo bins
• ACI 313-16 – Design Specification for Concrete Silos and Stacking Tubes for Storing Granular Materials
• ACI 313-97 – Standard Practice for Design and Construction of Concrete Silos and Stacking Tubes for Storing Granular Materials
• ANSI/ASAE EP433 (1988 R2011) – Loads exerted by free-flowing grain on bins
• AS 3774-1996 – Loads on Bulk Solids Containers 
• EN 1991-4 (2006): Eurocode 1 – Actions on structures – Part 4: Silos and tanks 
• ISO 11697:1995 – Bases for Design of Structures – Loads due to bulk materials

Protensão

• PTI DC45.1-18 – Recommendations for Stay Cable Design, Testing, and Installation 
• PTI TAB.1-06 – Post-Tensioning Manual

Ensaios referentes às propriedades do concreto

• ACI PRC-214-11 – Guide to Evaluation of Strength Test Results of Concrete (Reapproved 2019)
• ACI PRC-214.4-10 – Guide for Obtaining Cores and Interpreting Compressive Strength Results (Reapproved 2016)
• ACI 364.1R-19 – Guide for Assessment of Concrete Structures Before Rehabilitation
• ASCE/SEI 11-99 – Guide for Structural Condition Assessment of Existing Buildings
• ASTM E122-17 – Standard Practice for Calculating Sample Size to Estimate, With Specified Precision, the Average for Characteristic of a Lot of Process
• BS 1881-124:2015 – Testing concrete. Method for analysis of hardened concrete

Ensaios não destrutivos em estruturas de concreto (exceto para avaliação de corrosão)

• ACI PRC-201.1-08 – Guide for Conducting a Visual Inspection of Concrete in Service
• ACI PRC-214-11 – Guide to Evaluation of Strength Test Results of Concrete (Reapproved 2019)
• ACI PRC-228.2-13 – Report on Nondestructive Test Methods for Evaluation of Concrete in Structures
• ACI PRC 228.1-19 – Report on Methods for Estimating In-Place Concrete Strength
• ASTM C 597-16 – Standard Test Method for Pulse Velocity Through Concrete
• ASTM D 4788-03 – Standard Test Method for Detecting Delaminations in Bridge Decks Using Infrared Thermography
• BS 1881-121:1983 – Testing concrete. Method for determination of static modulus of elasticity in compression
• BS 1881-201:1986 – Testing concrete. Guide to the use of non-destructive methods of test for hardened concrete
• BS 1881-203:1988 – Testing concrete. Recommendations for measurement of velocity of ultrasonic pulses in concrete
• BS 1881-204:1988 – Testing concrete. Recommendations on the use of electromagnetic covermeters
• BS 1881-206:1986 – Testing concrete. Recommendations for determination of strain in concrete
• BS EN 14630:2006 – Products and systems for the protection and repair of concrete structures – Test methods – Determination of carbonation depth in hardened concrete by the phenolphthalein method
• BS EN 1504-9:2008 – Products and systems for the protection and repair of concrete structures – Definitions, requirements, quality control and evaluation of conformity. Part 9: General Principles for use of products and systems
• ICRI 210.4-09 –  Guide for Nondestructive Evaluation Methods for Condition Assessment, Repair, and Performance Monitoring of Concrete Structures
• IS 13311: 1992 – Non-Destructive Testing of Concrete – Methods of test – Part 1 – Ultrasonic Pulse Velocity
• IS 13311: 1992 – Non-Destructive Testing of Concrete – Methods of test – Part 2 – Rebound Hammer
• ISO 1920-6:2019 –  Testing of concrete – Part 6 – Sampling, preparing and testing of concrete cores
• ISO 1920-7:2004 –  Testing of concrete – Part 7 – Non-destructive tests on hardened concrete
• JGJ/T 23-2001 –  Technical specification for inspection of concrete compressive strength by rebound method
• RILEM CPC-18 – Measurement of hardened concrete carbonation depth

Ensaios não destrutivos específicos para avaliação de corrosão nas armaduras de estruturas de concreto

• ASTM C 876-22b – Standard Test Method for Corrosion Potentials of Uncoated Steel in Concrete
• ASTM C 1876-19 – Standard Test Method for Bulk Electrical Resistivity or Bulk Conductivity of Concrete
• ASTM D 4580-23 – Standard Practice for Measuring Delamination Concrete Bridge Decks by Sounding
• ASTM G 3-14 – Standard Practice for Conventions Applicable to Electrochemical Measurements in Corrosion Testing
• RILEM TC 154-EMC – Electrochemical Techniques for Measuring Metallic Corrosion
  • Test Methods for on-Site Measurement of Resistivity of Concrete (2000)
  • Test methods for on-Site Corrosion Rate Measurement of Steel Reinforcement in Concrete by Means of the Polarization Resistance Method (2004)
  • Half-cell Potential Measurements – Potential Mapping on Reinforced Concrete Structures (2003)
  • Progress Report 1994-97
• SHRP S-324-1993 – Condition Evaluation of Concrete Bridges Relative to Reinforcement Corrosion. Volume 2: Method for Measuring the Corrosion Rate of Reinforcing Steel

Teste de Integridade em Estacas

• NASTM – D5882 – 16 – Standard Test Method for Low Strain Impact Integrity Testing of Deep Foundations” (Método de teste padrão para ensaio de integridade de estaca com baixa deformação)

Tubulações

• ASTM – A53/A53M – Standard Specification for Pipe, Steel, Black and Hot-Dipped, Zinc-Coated, Welded and Seamless

Soldagem

• AWS D1.1:2020 – Structural Welding Code – Steel
• AWS D1.5:2020 – Bridge Welding Code
• AWS A2.4:2020 – Standard Symbols for Welding, Brazing, and Nondestructive Examination.
• AWS D14.1:2005 – Specification for Welding of Industrial and Mill Cranes and Other Material Handling Equipment

Ensaios não destrutivos em estruturas metálicas, caldeiras e vasos de pressão

• ANSI/ASNT CP-189 – Standard for Qualification and Certification of Nondestructive Testing Personnel
• ASME BPVC 2023 – Section V – Boiler and Pressure Vessel Code – Nondestructive Examination 
• ASTM E165-18 – Standard Practice for Liquid Penetrant Examination for General Industry
• ASTM E1417-21e1 – Standard Practice for Liquid Penetrant Testing
• ASTM E1209-18 – Standard Practice for Fluorescent Liquid Penetrant Testing using the Water-Washable Process
• ASTM E709-21 – Standard Guide for Magnetic Particle Testing
• ASTM E3024-22a – Standard Practice for Magnetic Particle Testing for General Industry
• ASTM E164-19 – Standard Practice for Contact Ultrasonic Testing of Weldments
• ASTM E213-22 – Standard Practice for Ultrasonic Testing of Metal Pipe and Tubing
• ASTM E797-21 – Standard Practice for Measuring Thickness by Manual Ultrasonic Pulse-Echo Contact Method
• AWS B1.10M:2016 – Guide for the Nondestructive Examination of Welds
• AWS B1.11M:2015 – Guide for the Visual Examination of Welds

Vibrações Mecânicas em Estruturas e Conforto Humano

• BS 7385-2:1993 – Evaluation and measurement for vibration in buildings — Guide to damage levels from groundborne vibration
• ISO 2631-1:1997 – Mechanical vibration and shock – Evaluation of human exposure to whole-body vibration – Part 1: General Requirements
• ISO 2631-2:2003 – Mechanical vibration and shock – Evaluation of human exposure to whole-body vibration – Part 2: Vibration in buildings (1 Hz to 80Hz)
• ISO 2631-3:1985– Mechanical vibration and shock – Evaluation of human exposure to whole-body vibration – Part 3: Evaluation of exposure to whole-body z-axis vertical vibration in the frequency range 0,1 to 0,64Hz (CANCELADA)
• ISO 4866:1990– Mechanical vibration and shock – Vibration of buildings – Guidelines for the measurement of vibrations and evaluation of their effects on buildings (CANCELADA)
• IS/ISO 4866:2010– Mechanical vibration and shock – Vibration of fixed structures – Guidelines for the measurement of vibrations and evaluation of their effects on structures
• ISO 10137:2007 – Bases for design of structures — Serviceability of buildings and walkways against vibrations
• ISO 14963:2003 – Mechanical vibration and shock — Guidelines for dynamic tests and investigations on bridges and viaducts
• ISO 14964:2000 – Mechanical vibration and shock — Vibration of stationary structures — Specific requirements for quality management in measurement and evaluation of vibrations
• ISO 16587:2004 – Mechanical vibration and shock — Performance parameters for condition monitoring of structures
• ISO 18649:2004 – Mechanical vibration — Evaluation of measurement results from dynamic tests and investigations on bridges

Preparação e Pintura de Estruturas Metálicas

• ASTM D610-08(2019) – Standard Practice for Evaluating Degree of Rusting on Painted Steel Surfaces
• ASTM D2200-17(2021) – Standard Practice for Use of Pictorial Surface Preparation Standards and Guides for Painting Steel Surfaces
• BS EN ISO 12944-1:2017  – Paints and varnishes. Corrosion protection of steel structures by protective paint systems. General Introduction
• BS 7079:2009  – General introduction to standards for preparation of steel substrates before application of paints and related products
• DIN 55928-1 (1991) – Corrosion Protection of Steel Structures by the Application of Organic or Metallic Coatings; General, Concepts and Corrosion Loads (SUBSTITUÍDA POR DIN EN ISO 12944-1)
• NACE WJ-4/SSPC-SP WJ-4-2021 – Waterjet Cleaning of Metals— Light Cleaning (WJ-4)
• ISO 8501-1:2007 – Preparation of steel substrates before application of paints and related products — Visual assessment of surface cleanliness
  • Part 1: Rust grades and preparation grades of uncoated steel substrates and of steel substrates after overall removal of previous coatings
  • Part 2: Preparation grades of previously coated steel substrates after localized removal of previous coatings
  • Part 3: Preparation grades of welds, edges and other areas with surface imperfections 
  • Part 4: Initial surface conditions, preparation grades and flash rust grades in connection with high-pressure water jetting 
• SIS 05 59 00-1967 – Pictorial surface preparation standards for painting steel surfaces
• SSPC-SP 1-2006 – Solvent Cleaning
• SSPC-SP 2-2018 – Hand Tool Cleaning
• SSPC-SP 3-2018 – Power Tool Cleaning
• SSPC-SP 5/NACE No. 1-2006 – White Metal Blast Cleaning
• SSPC-SP 6/NACE No. 3-2006 – Comercial Blast Cleaning
• SSPC-SP 7/NACE No. 4-2006 – Brush-Off Blast Cleaning
• SSPC-SP 8-2004 – Pickling
• SSPC-SP 10 /NACE No. 2-2006 – Near-White Metal Blast Cleaning
• SSPC-SP 11-2020 – Power Tool Cleaning to Bare Metal

Referências Internacionais Complementares Diversas

• AISC – Bridge Fatigue Guide – Design and Details, 1977
• AISC – Design Manual for Orthotropic Steel Plate Deck Bridges, 1963
• AASHTO/NSBA S10.1-2014 – Steel Bridge Erection – Guide Specification, 2014
• AASTHO – Manual for Condition Evaluation of Bridges. 2nd edition
• ASCE – Guidelines for the Design of Cable-Stayed Bridges, 1992
• ASCE – Waterfront Facilities Inspection and Assessment, 2015
• CALTRANS – Bridge Design Practice, 5th Edition, 2022
• IRECEN – Underwater Inspection of Bridges, 2005
• PCI-PTI – Recommended Practice for Precast Post-Tensioned Segmental Construction, 1982
• PCI – MNL-116-21E – Manual for Quality Control for Plants and Production of Structural Precast Concrete Products, 5th Edition, 2022. 
• PCI – TM-101-16 – Quality Control Technician/Inspector Level I & II Training Manual, 5th Edition, 2016.
• PCI – CB-02-20H – Bridge Geometry Manual
• PCI – MNL-115-68 – Fundamentals of Prestressed Concrete Design, Revised 2nd Edition
• PCI – State-Of-The-Art Of Precast/Prestressed Concrete Spliced-Girder Bridges

Abreviações Nacionais

• ABNT – Associação Brasileira de Normas Técnicas
• DNER – Departamento Nacional de Estradas de Rodagem 
• NBR – Norma Brasileira

Abreviações Internacionais

• AASTHO – American Association of State Highway and Transportation Officials
• ACI – American Concrete Institute
• AISC – American Institute of Steel Construction
• AMPP – Association for Materials Protection and Performance
• ANSI – American National Standards Institute 
• AREMA – American Railway Engineering and Maintenance-of-Way Association
• AS – Australian Standard
• ASCE – American Society of Civil Engineers
• ASME – The American Society of Mechanical Engineers
• ASNT – The American Society for Nondestructive Testing
• ASTM – American Society for Testing and Materials
• AWS – American Welding Society
• BS – British Standards
• EN – Euro Norm (European Standard)
• ICRI – International Concrete Repair Institute 
• IRECEN – Indian Railways Institute of Civil Engineering
• IS – Indian Standard
• ISO – International Organization for Standardization
• NACE – National Association of Corrosion Engineers 
• PCI – Precast/Prestressed Concrete Institute
• PIANC – Association International de Navigation (International Navigation Association)
• PTI – Post-Tensioning Institute
• RILEM – Réunion Internationale des Laboratoires et Experts des Matériaux, systèmes de construction et ouvrages (The International Union of Laboratories and Experts in Construction Materials, Systems and Structures) 
• ROM – Recommendations for Maritime Works 
• SHRP – Strategic Highway Research Program
• SIS – Sveriges Standardiseringskommision (Swedish Institute for Standards)
• SSPC – Steel Structures Painting Council 
• SHRP – Strategic Highway Research Program
• UFC – Unified Facilities Criteria  (Department of Defense – United States of America)

Observações

Embora algumas das normas nacionais acima relacionadas tenham sido canceladas, é importante, mesmo assim,  levar em consideração as suas recomendações, uma vez que estas normas foram utilizadas no projeto de várias estruturas já construídas no país.

Aplicações

A Dynamis Techne emprega essas normas em vários serviços. Para saber mais sobre a aplicação destas normas nacionais e internacionais acesse os seguintes links:

• Trabalhos realizados
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