Course Calendar - CISC-ICCA

Transcription

2015-2016 COURSE CALENDAR
CALENDRIER DES COURS 2015-2016
2015-2016 COURSE CALENDAR
CALENDRIER DES COURS 2015-2016
Learn about Steel Construction with the Experts
Échangez avec les experts de la construction en acier
Canadian Institute of Steel Construction
TABLE OF CONTENTS / TABLE DES MATIÈRES
Table of Contents / Table des matières ............................................................................................................2
Legend / Légende ................................................................................................................................................2
Preface / Préface ..................................................................................................................................................3
Hot Topic Webinars .............................................................................................................................................4
CSA S16-14 Changes & Handbook 11 Highlights ..............................................................................................5
Statics and Strength of Materials .......................................................................................................................6
Connections I .......................................................................................................................................................7
Connections II ......................................................................................................................................................8
Inspection of Steel Building Structures ..............................................................................................................9
Single Storey Building Design ..........................................................................................................................10
Industrial Building Design ................................................................................................................................11
Steel Bridges – Design, Fabrication, Construction...........................................................................................12
Conception, fabrication et construction de ponts en acier ............................................................................13
Nouveautés CSA S16-14 et survol du Handbook 11 ........................................................................................14
Inspection des structures de bâtiments en acier .............................................................................................15
Self-Paced Learning......................................................................................................................................16-17
Administration and Policies / Administration et politiques............................................................................18
Locations and Dates / Emplacements et dates ................................................................................................19
LEGEND / LÉGENDE
Interest Categories / Catégories d’intérêts*
Ar - Architecture
St - Structural Engineering / ingénierie en structure
Fb - Steel Fabrication Engineering / ingénierie en fabrication d’acier
Dt - Steel Detailing / dessin de charpentes d’acier
Es - Cost Estimating / estimation des coûts
In - Steel Inspection / inspection des structures d’acier
Bl - Building Regulation and Enforcement / réglementation et application relatives au bâtiment
Ed - Education
* Interest Category Codes are displayed in the upper right corner of each course description.
Les codes de catégories d’intérêts sont affichés dans le coin supérieur droit de chaque description de cours.
2
2015-2016 Course Calendar
Institut canadien de la construction en acier
PREFACE
At CISC, we draw on the skills of leading designers, researchers, steel fabricators and industry experts, to
develop and deliver our continuing education courses.
Course content is developed with financial support from the CISC Education and Research Council. This
material is constantly updated to reflect changes in building codes and standards. With the recent
publication of the CSA S16-14 standard and the imminent publication of the 2015 National Building
Code of Canada, the entire portfolio of CISC courses is undergoing updates and enhancements. At the
same time, face-to-face classroom style courses are being brought online with both self-paced and live
deliveries.
Along with our ongoing calendar of courses, we are pleased to present several new Hot Topic Webinars,
the updated Industrial Building Design course live online in English and French, the updated Steel
Bridges course live online in English and French, and one new French language course that leads to CISC
Accreditation, which supports CISC's commitment to quality steel construction.
The new “Inspection des structures de bâtiments en acier" course plus exam is the French language
version of the "Inspection of Steel Building Structures" course, both of which have been extended to 3.5
days and lead to qualification as a CISC Accredited Steel Inspector – Buildings. For experienced inspectors,
the exam may now be taken without registering for the course.
For on-line registration and the latest updates please go to our web site www.cisc-icca.ca/courses.
For further information:
tel: 905-946-0864 x108
email: [email protected]
PRÉFACE
À l’ICCA, nous faisons appel aux compétences des meilleurs concepteurs, chercheurs, fabricants et
spécialistes de l’industrie de l’acier pour élaborer et présenter nos cours de formation continue.
Le matériel de cours est développé avec l’appui financier du Conseil à l’éducation et à la recherche
de l’ICCA. Ce matériel est constamment mis à jour pour refléter l’évolution des codes et normes de la
construction. Avec la publication récente de la norme CSA S16-14 ainsi que la publication imminente du
Code national du bâtiment du Canada 2015, tout l’éventail des cours de l’ICCA est en pleine mise à jour
et amélioration de son contenu. Simultanément, les cours en salle de classe passent en ligne soient en
une formation à son propre rythme ou en direct.
Outre notre calendrier de cours continus, nous sommes heureux de présenter plusieurs nouveaux « Hot
Topics » webinaires, le cours en ligne « Industrial Building Design » actualisé et en direct en anglais
et en français, le cours en ligne « Steel Bridges » mis à jour et en direct en anglais et en français, ainsi
qu’un nouveau cours de langue française avec option d’accréditation par l’ICCA, renforçant ainsi notre
engagement à la construction en acier de qualité.
Le nouveau cours « Inspection des structures de bâtiments en acier » et examen est la version française
du cours « Inspection of Steel Building Structures »; tous deux ont été allongé à 3,5 jours et mènent
à la qualification en tant qu’inspecteur accrédité de l’ICCA - bâtiments en acier. Pour les inspecteurs
expérimentés, l’examen peut être pris sans suivre le cours.
Pour l’inscription en ligne et les dernières mises à jour, veuillez visiter notre site web : www.cisc-icca.ca/
courses.
Pour tout renseignement:
tél. : 905-946-0864 x108
courriel : [email protected]
Calendrier des cours 2015-2016
3
SERIES
LIVE ONLINE
HOT TOPIC WEBINARS
REGISTRATION FEES – 1.5 HOURS (0.15 CEU'S)
30 days prior to course
less than 30 days prior
- 2.0 HOURS (0.20 CEU’S)
$160
$175
Ar, St
Fb
$210
$235
Course Description
This series of seminars addresses current topics
in steel construction that are not covered in
our continuing education courses or need more
comprehensive coverage. Guest speakers are
subject matter specialists with the necessary
knowledge and experience to provide insight and
solutions.
The presenters define the problem, list the issues
and positions, provide background information,
explain regulatory requirements, use case studies
to illustrate how they or others have dealt with
the issues and provide references to additional
resources.
viewing the webinar and passing a short test.
Please see Courses under Education & Research on
the CISC website.
Do you have the answer?
Current “Hot Topics” needing a subject matter
expert include coatings, speed of construction,
building information modelling, engineered fire
protection, rapid replacement bridges and others.
If you would like to be part of this webinar series
and can address one of these topics, please submit
an outline and your qualifications to the CISC
Director of Education and Research at courses@
cisc-icca.ca.
Recorded Webinars
Some past webinars are part of CISC's Self-Paced
Learning program and qualify for CEU's after
2015 Live Webinars*
Architecturally Exposed Structural Steel 4: Diagrids - November 19, 1:00 pm to 2:30 pm ET
Terri Meyer Boake, B.E.S., B.Arch., M.Arch., LEED AP
Professor, School of Architecture, University of Waterloo, Cambridge, Ontario
LEED v4 Overview for Steel Fabricators - December 3, 1:00 pm to 2:30 pm ET
Tareq Ali, RPM
Director of Marketing, Communications and Membership Services
Seismic Design of Industrial Steel Structures + CSA S16-14 Annex M - March 9, 1:00 pm to 3:00 pm ET
R. Mark Lasby, B.Sc., P.Eng.
Principal Structural Engineer - Fluor Canada Ltd., Calgary
*See the CISC website under Education & Research for the complete list and any recently added topics.
4
CSA S16-14 CHANGES & HANDBOOK 11 HIGHLIGHTS
NEW
LIVE ONLINE
REGISTRATION FEES - 8 HOURS: 4 SESSIONS (0.8 CEU’S)
Less than 30 days prior
Full course
$450
$500
w/ Handbook 11
$690
$740
S16 Session Only
$230
$255
St, Fb
Dt, Ed
Course Description
This course covers the changes in CSA S16-14 and
the design of steel members and elements using
the new 11th Edition of the Handbook of Steel
Construction. Registration options include all 4
sessions with 0.8 CEU's awarded, or the CSA S16-14
session alone with 0.2 CEU’s awarded. In addition,
discounted bundles with the Handbook are
available at registration.
The first session titled “CSA S16-14 Changes”,
covers the major changes and new provisions
introduced in CSA Standard S16-14, “Design of
Steel Structures” and the CISC Commentary on
CSA S16. Changes in Clause 27 Seismic design are
included in this session along with a brief overview
of the Handbook.
The intent of the next three sessions is to provide
understanding on the background and use of
design aids contained in the new Handbook while
drawing the participants’ attention to changes,
new additions and hidden gems. However, overall
building behaviour and seismic design are outside
the scope of the Handbook of Steel Construction
and this portion of the course.
Steel Handbook Highlights uses numerous design
examples to illustrate design aids for simple
connections (single angle, double angle, end plate
and shear tab), tension members, compression
members and flexural members (composite and
non-composite).
Who should attend?
• Engineers, technologists and technicians who
have a background in the design of structures
• Civil engineering professors and instructors who
use the Handbook as a teaching aid
2016 Course Schedule
Sessions 1 & 2
Sessions 3 & 4
February 3, 12:00 pm and 3:00 pm ET
February 4, 12:00 pm and 3:00 pm ET
Note: CSA S16-09 Changes & Steel Handbook Highlights (10th Edition) will continue to be available online through CISC SelfPaced Learning.
Course Leaders
Stephanie D’Addese, M.Eng., P.Eng.
Engineer, Solutions Centre, Canadian Institute of Steel
Construction
Charles Albert, M.Sc.E., P.Eng.
Manager of Technical Publications, Canadian Institute of
Steel Construction
Stephanie D’Addese has over eight years of experience in the
analysis and design of complex structures, and construction
administration. She has designed buildings in the industrial,
commercial, retail and residential sectors along with structural
alterations and strengthening systems for many types of
existing structures.
Charles Albert began his career as a research associate at the
University of Alberta, where he was involved in testing and
numerical modelling of steel beams in cantilever suspendedspan construction.
She earned both her Bachelor of Applied Science degree
in Engineering Science (Infrastructure) and her Master of
Engineering degree (Structural Engineering) from the
University of Toronto.
Charles has over 20 years of experience with the steel
industry developing educational material for CISC courses on
steel buildings, bridges and seismic design. Other areas of
activities have included the preparation of computer software
and various CISC publications. He is currently editor of the
Handbook of Steel Construction.
5
SELF-PACED
ONLINE
STATICS AND STRENGTH OF MATERIALS
REGISTRATION FEES – 60 HOURS: 20 RECORDED SESSIONS (6.0 CEU’S)
Sessions, Notes, Assignments, 2 hr Tutoring & Marked Final Exam
With CISC Handbook 10th Edition
$1,125
$1,320
Dt, Fb
Course Description
This course is intended to prepare students who do
not have a structural engineering background for
the design of steel connections (See Connections I
on page 7).
This course introduces the student to terminology
specific to this specialty by defining the basic
concepts and measurement units. The student will
be introduced to the basic principles of statics and
strength of materials with applications to simple
structures by calculating the stresses exerted and
by analyzing the behavior of materials under
stress. It will also include the source of rules and
standards used in the steel industry.
This training also has the following goals:
• Understand and apply the major principles of
the static forces and strength of materials using
practical applications
• Know how to analyze the forces acting on
a body and represent them in the form of
diagram
• Recognize the properties and characteristics of
steel
• Apply knowledge of physics to solve real
scientific problems
• Develop curiosity and critical judgment
Topics include vectors, force and equilibrium
diagrams, stress and strain, axial compression and
buckling, bending moments and shear, section
properties and properties of steel.
Who should attend?
• Steel detailers
• Other steel industry personnel wanting a better
understanding of how loads are carried by steel
structures
• Steel fabrication engineers new to steel or
needing a refresher
Course Leader
Maura Lecce, Ph.D.
Professor, Civil Engineering Technology, Seneca College of Applied Arts and Technology
Maura Lecce has been an educator since 2006 and has been
involved in research during her academic pursuits.
Maura earned her B.A.Sc. and M.A.Sc. degrees in Civil
Engineering from the University of Toronto (2000, 2001) and a
Ph.D. from the University of Sydney, Australia (2006). Maura
has publications based on her research on HSS connections
and thin-walled stainless steel members. Maura also pursued
a Post-Doctoral Fellowship from 2006-2008 at the University
6
of Toronto. During this time, she taught for the Department
of Civil Engineering and collaborated on the AISC Steel Design
Guide 24 “Hollow Structural Section Connections” (published
in 2010).
Maura's interests in education and engineering have led her
to her teaching career at Seneca College which she started in
2007.
UPDATED
LIVE ONLINE
CONNECTIONS I
REGISTRATION FEES – 40 HOURS: 20 SESSIONS (4.0 CEU’S)
Full course
$1,060
$1,180
with Handbook
$1,300
$1,420
Dt, Fb
Ed
Course Description
This course has been updated to the requirements
of CSA S16-14. It is the first in a two level series
intended to develop the skills necessary for the
design of steel connections as related to the
construction of steel-framed structures. Completion
of the Statics and Strength of Materials course (See
page 6), or equivalent, is recommended.
• Recognize and apply the properties and
characteristics of steel use the appropriate
connecting elements (bolts and welds)
The objective of this course is to assist steel
fabrication personnel in their understanding of
basic connection design principles and to design
simple welded and bolted connections suitable for
fabrication. They will also understand the origin of
the rules and standards used in the steel industry.
In addition to printed and supplementary notes,
there are assignments, quizzes and a final exam.
Course participants who achieve an 60% grade
on the 2-hr final exam will receive a certificate of
completion.
The scope of the course is limited to connections
normally encountered in common types of
steel building structures and does not include
connections in Seismic Force Resisting Systems.
Who should attend?
• Steel detailers with a desire to understand
concepts and do simple connection design
• Junior steel fabrication engineers and steel
designers new to connection design
• College instructors involved in teaching steel
detailing courses
• Apply the major principles of the static forces
and strength of materials in connection design
Topics include high strength bolts, welds, tension
members, bolted shear connections and welded
shear connections.
Sessions 1 to 20
Tuesdays and Thursdays at 7:00 pm ET, starting January 5
Note: Connections I (CSA S16-09) will be available online through CISC Self-Paced Learning until October 6, 2015.
Course Leader
Royce Johnson, M.Eng., P.Eng.
Structural Engineer, Waiward Steel Fabricators Ltd.
Royce Johnson has been involved in many aspects of
construction and design throughout his career.
Starting as a Construction Estimator/Project Manager Royce
moved into the design end of the business as a Design
Draftsman working in the areas of structural steel detailing,
civil-structural, mechanical and architectural drafting and
design. Guided by a keen interest in structural design, Royce
went on to complete the Civil Engineering undergraduate and
Structural Engineering graduate programs at the University
of Alberta. This led to his current position at Waiward Steel
Fabricators Ltd.
Royce has worked in the engineering department of Waiward
Steel for the past 14 years as a senior design engineer involved
with engineering project management; structural steel
connection design; lifting, transportation and erection studies;
and engineering standards development.
His experience includes projects in the petrochemical, mining,
pulp and paper, institutional, commercial and railroad/
highway bridge sectors.
7
SELF-PACED
ONLINE
CONNECTIONS II
Sessions, Notes, Assignments & 2 hr Tutoring
With CISC Handbook 10th Edition
Accreditation Exam Fee: $200 with course registration
$1,125
$1,320
Fb, St
Dt, Ed
Course Description
This course is the second in a two level series
intended to develop the skills necessary for the
design of steel connections as related to the
construction of steel-framed structures. Successful
completion of Connections I course is strongly
recommended.
The basic objective is to assist steel industry
personnel in their understanding of basic
connection design principles and, after a review
of material presented in Connections I, to design
more complex welded and bolted connections
suitable for fabrication. Participants will also
understand the origin of the rules and standards
used in the steel industry.
The scope of the course is limited to connections
normally encountered in common types of
steel building structures and does not include
connections in Seismic Force Resisting Systems.
• Know how to analyze the forces acting on a
body and represent them in diagrammatic form
• Understand the different properties of materials
• Apply knowledge of physics to solving real
technical problems
Topics include; a review of material covered in
Connections I, tension bolted connections, bolted
and welded eccentric connections, welded and
bolted rigid connections, and braces.
A proctored, 3-hour final exam will be available
after completion of the course.
Who should attend?
• Steel fabrication engineers and designers
• Steel detailers who have successfully completed
Connections I
• Professors and lecturers involved in teaching
steel connection design
Course Leader
William Rypstra, P.Eng.
President of WRT Engineering Inc.
William Rypstra has been actively involved in the Structural
Steel Fabrication and Building Construction sectors for the
past 35 years. He is a graduate of the University of Waterloo
with a Bachelor of Science Degree in Civil Engineering
majoring in Structural Steel design. He has also taken courses
with the Canadian Welding Bureau enabling him to be
designated as a Fabricator’s Welding Engineer. He has also
taken most of the building design and connection design
courses offered by the CISC over the years.
William has held positions as Senior Design Engineer and
Welding Engineer for various Fabricators in the GTA and in
London. In the last 20 years he has worked in the Design
Build Construction and in the Consulting Engineering sectors
as a Senior Design Engineer. Today, William is President of
WRT Engineering Inc. WRT Engineering supplies Engineering
Services to the Steel Fabrication and Building Construction
sectors.
William has been involved with some significant projects as
Toronto Hydro, OPG, Pickering Research in Motion, Waterloo
First Canadian Title, Automodular, London International
Airport, London Machinery and Connection Design for 2015
Pan Am Games Buildings, Markham & Oakville.
PATHWAY TO CISC ACCREDITATION
A registered professional engineer (structural) who has fully participated in the
Connections II course and has achieved an 80% grade on the final exam will be designated
by CISC as an Accredited Steel Connections Designer - Conventional Construction.
8
INSPECTION OF STEEL BUILDING STRUCTURES
REGISTRATION FEES – FOUR DAY COURSE (2.8 CEU’S) + 3 HOUR EXAM
Full course
with Handbook
$1,420
$1,660
$1,575
$1,815
Accreditation Exam Fee: $200 with course registration or $750 for challenge exam
In, St
Fb, Bl
Course Description
This course will provide participants with
requirements, recommendations and resources for
the inspection of steel-framed buildings.
Governing standards and documents discussed include:
• National Building Code of Canada 2010
• CSA S16-09 Design of Steel Structures
• CISC Code of Standard Practice for Structural Steel
• CSA W59-03(09) Welded Steel Construction
(Metal Arc Welding)
• CISC Steel Fabrication Quality Systems Guideline
The elements to be discussed include:
• Structural steel materials, grades and shapes
• Steel fabrication and erection, tolerances
• High-strength bolting, inspection and
installation
• Welding inspection, including shear studs
• Non-destructive testing and other inspection tools
• Seismic systems and requirements
• OWSJ and joist girders
• Steel floor and roof deck systems and steel bar grating
• Structural steel plans and specifications
• Surface preparation, coatings application and
galvanizing
• Safety
Discussion will include both detailed technical
requirements and methodologies for
implementation from both a quality control
(production) and quality assurance (third party)
inspection perspective. A optional 3-hr final exam
is conducted for accreditation the morning of
the fifth day. The exam may be challenged by
experienced inspectors without taking the course.
Who should attend?
• Third-party inspection agencies and certified
Welding inspectors
• Code officials involved in approvals or inspection
• Steel fabricators and erectors
• Design engineers, constructors, owners and
specifiers of steel structures
2015-2016 Course Schedule
Atlantic Region (TBA)
Toronto, ON
Edmonton, AB
October 19, 1:00 pm to October 23, 11:30 am
October 26, 1:00 pm to October 30, 11:30 am
February 8, 1:00 pm to February 12, 11:30 am
Course Leader
Robert E. Shaw, Jr., P.E.
President, Steel Structures Technology Center, Inc.
A graduate civil engineer from Rose-Hulman Institute of
Technology, Bob began his career in the steel construction
industry in 1973. He founded the SSTC in 1990, focusing on
technical education related to the design, fabrication, erection
and inspection of steel-framed structures, and provides
consulting services in steel construction practices and quality
issues.
Bob is author of the Structural Bolting Handbook, the
Structural Welding Quality Handbook and the Shop Inspection
Handbook for Structural Steel Buildings, all published by the
SSTC. He is a member of the AISC Specifications Committee,
TC13 on Quality Control and Quality Assurance, TC 6 on
Connections and TC 9 on Seismic Issues. He is a member of the
RCSC Specifications Committee. Bob is a member of the AWS
D1 Structural Welding Committee, Subcommittee D1Q on Steel
(D1.1) and D1L on Seismic Welding (D1.8). He is Chairman of
the International Institute of Welding’s Commission XV on
Design, Analysis and Fabrication of Welded Structures.
PATHWAY TO CISC ACCREDITATION
An examinee who achieves an 80% grade on the final exam for this course
will be designated by CISC as an Accredited Steel Inspector - Buildings.
9
SELF-PACED
ONLINE
SINGLE STOREY BUILDING DESIGN
Sessions, Notes & 0.5 hr Tutoring
$475
St, Ed
Course Description
This course is intended to provide understanding
on design theory and the rationale behind code
provisions as well as the application of specific
Code formulae and requirements for single storey
steel-framed buildings. It will focus on practical
and economical solutions for framing a single
storey warehouse building with attached office
area to the requirements of the 2010 National
Building Code of Canada and the pertinent
provisions of CSA Standard S16-09.
Practical steel framing concepts and integration
with architectural and mechanical features will
be discussed. The presenters will highlight major
changes in NBCC 2010 and CSA S16-09.
Topics include:
• Gravity loads, including ponding and snow
drifting
• Companion load combinations
•
•
•
•
•
•
•
•
•
•
Wind and Seismic loads
Selection of deck and joist systems
Design of Gerber girders
Interior and exterior columns, girts, base plate
and anchor rods
Selection and design of braced frames and roof
diaphragm
Notional loads, P-delta effects
Fire resistance rating issues
Fabrication issues
Material issues
Economics in structural steel solutions
Who should attend?
• Structural engineers and others who design
steel structures
steel design courses
Course Leader
R. Mark Lasby, B.Sc., P.Eng.
Principal Structural Engineer - Fluor Canada Ltd., Calgary
Over 34 years of experience in the planning, design,
construction review and contract supervision of a variety of
industrial, commercial, recreational and institutional building
projects.
10
Member of the Canadian Standards Association Technical
Committee on Steel Structures (S16) and American Institute of
Steel Construction Adhoc Committee on Industrial Buildings
and Non-building Structures.
UPDATED
LIVE ONLINE
INDUSTRIAL BUILDING DESIGN
REGISTRATION FEES – ONE DAY COURSE (0.8 CEU’S)
$565
$625
St, Ed
Course Description
This course is intended to provide understanding
on design theory and the rationale behind
code provisions that are unique to steel-framed
industrial buildings. It focuses on practical and
economical solutions for framing a typical
industrial building to the requirements of the
2010 National Building Code of Canada and the
pertinent provisions of CSA Standard S16-14.
Whenever possible, relevant provisions in the
soon-to-be published NBCC 2015 will be discussed.
The course material will reference the new third
edition of the Crane-Supporting Steel Structures:
Design Guide and feature a completely reworked
design example.
This course also has the following goals:
• Identify the unique environmental and
mechanical loading conditions in industrial
buildings
• Learn the applicability and limitations of
current codes and standards in Canada, with a
comparison to other jurisdictions
• Select the most cost effective framing schemes
• Tips for cost effective design
• Design crane-supporting girders, stepped
columns, purlins and girts, lateral force resisting
systems, roof trusses and efficient connections
• Understand serviceability considerations and
limitations
• Design for high and low temperatures
• Learn the implications of seismic provisions for
these structures
Other topics include fatigue, standing seam roofs,
rehabilitation, tolerances and coatings
Who should attend?
• Structural engineers and others who design
steel structures
• Inspectors and code officials involved in the
approvals process
• Detailers, erectors and other industry personnel
who connect structural steel components
steel design courses
Session 1 & 2
Session 3 & 4
November 25, 12:00 pm and 3:00 pm ET
November 26, 12:00 pm and 3:00 pm ET
Course Leaders
Robert A. (Bob) MacCrimmon, P.Eng.
Senior Civil/Structural Specialist, Hatch
Logan Callele, P.Eng.
Engineering Manager, Waiward Steel Fabricators Ltd.
Bob has over 40 years of experience in the design and
construction of industrial, marine and power projects in
Canada, the USA and abroad. Current and past committee
memberships include CSA Technical Committee on Steel
Structures for Buildings (CSA S16), the AISC Adhoc Committee
on Industrial Buildings and Non-building Structures, and
AIST (formerly AISE) Subcommittee No.13 for the Design and
Construction of (Steel) Mill Buildings.
After completing his studies at the University of Alberta (B.Sc.
2002, M.Sc. 2004), Logan Callele joined Waiward Steel where
he provides steel fabrication and erection engineering services,
and specializing in development of custom connection design
software.
Author of the CISC publication titled “Crane-Supporting Steel
Structures: Design Guide”.
Logan has worked on several industrial projects in Alberta,
including both new and renovation work with most of the
major oil sands sites in Alberta. He has also been involved in
mining and bridge projects as well as fire reconstruction at a
petrochemical site.
Logan is currently a member of the Canadian Standards
Association Technical Committee on Steel Structures for
Buildings, publisher of CAN/CSA Standard S16 ”Limits States
Design of Steel Structures”.
11
STEEL BRIDGES – DESIGN, FABRICATION, CONSTRUCTION
UPDATED
LIVE ONLINE
REGISTRATION FEES – TWO DAY COURSE (1.6 CEU’S)
$955
$1,060
St, Fb
Ed
Course Description
This course covers the design, fabrication and
construction of steel bridges based on CAN/
CSA-S6-14, Canadian Highway Bridge Design Code.
The course is intended to provide understanding
on design theory and the rationale behind Code
provisions as well as the application of specific
Code formulae and requirements. The practical
and economical aspects of fabrication, erection,
choice of material and their impact on design will
also be emphasized.
The presentation and the Course Notes include
four updated design examples illustrating
extensive design calculations for I-girders and
box girders of straight and curved configurations.
Topics include fatigue and brittle fracture, integral
abutments, aesthetics, sustainability, design
process and economics, highway bridge loads and
methods of analysis, I-girder design, straight and
curved box girder design, wind and seismic effects,
fabrication and economical details, construction
and erection methods.
Major changes and new provisions that were
introduced in the 11th edition of CAN/CSA-S6 and
their effect on the design of steel girders will be
highlighted.
Who should attend?
• bridge designers
• bridge engineers with federal, provincial and
municipal bridge departments
• engineers in steel fabrication and erection
• bridge inspectors
• civil engineering professors with interests in
bridges
Session 1 & 2
Session 3 & 4
Session 5 & 6
Session 7 & 8
January 20, 12:00 pm and 3:00 pm ET
Course Leaders
Gilbert Grondin, Ph.D., P.Eng.
Senior Bridge Engineer, AECOM
Adjunct Professor, University of Alberta
Prior to joining AECOM in June 2012, he was professor of
Civil Engineering at the University of Alberta for 17 years. His
research focused on the behaviour of connections, fatigue
of steel structures, steel plate walls and stiffened steel plates.
He is a member of CSA-S16, CSA-G40.20/G40.21, the Research
Council on Structural Connections, the Structural Stability
Research Council, and chair of CSA-S6 steel structures subcommittee.
fabrication processes. He offers a fabricator’s perspective on
practical and economical steel bridge solutions.
James Montgomery, Ph.D., P.Eng., LEED® AP
Principal, DIALOG
He enjoys working with contractors and coordinating the
various engineering disciplines on projects. Jim has been
responsible for the project management, structural design and
construction review of countless bridge, building, industrial,
and civil engineering projects.
Paul J. King, M.S., P.Eng.
VP Engineering, Rapid-Span Structures Ltd.
He brings with him over 20 years experience in the design and
fabrication of steel bridges. Specialties include design of prefabricated bridge systems, welding engineering and bridge
12
CONCEPTION, FABRICATION ET CONSTRUCTION DE PONTS EN ACIER
NOUVEAU
COURS EN LIGNE
FRAIS D’INSCRIPTION – COURS DE DEUX JOURS (1,6 UNITÉS UFC)
au moins 30 jours avant le cours
moins de 30 jours avant le cours
955 $
1,060 $
St, Fb
Ed
Description du cours
des ponts routiers et méthodes d’analyse, la
conception des poutres en « I », la conception
des poutres-caissons droites et courbes, l’effets
du vent et des séismes, la fabrication, les détails
économiques et les méthodes de construction et
de montage.
Ce cours traite de la conception, de la fabrication
et de la construction de ponts en acier selon la
norme CAN/CSA-S6-14, Code canadien sur le calcul
des ponts routiers. Ce cours a pour but d’aider à
mieux comprendre la théorie de conception et le
raisonnement des dispositions du code ainsi que
l’application de certaines formules et exigences du
code. Les aspects pratiques et économiques de la
fabrication, du montage, du choix des matériaux
et leurs conséquences sur la conception seront
également mis en évidence.
Les modifications importantes et les nouvelles
dispositions introduites dans la 11e édition de la
norme CAN/CSA-S6 qui concernent directement la
conception et les calculs des poutres d’acier seront
également discutées.
La présentation et les notes de cours comprennent
quatre exemples de conception actualisés illustrant
les calculs détaillés de poutres-caissons et de
poutres en « I » de configurations droite et courbe.
Les sujets abordés comprennent les ruptures
fragiles et les ruptures par fatigue, les culées
intégrales, l’esthétique, durabilité, le processus de
conception et aspects économiques, les charges
À qui s’adresse ce cours?
• concepteurs de ponts
• ingénieurs des ponts travaillant pour des services
fédéraux, provinciaux et municipaux
• ingénieurs travaillant dans les secteurs de la
fabrication et du montage d’acier
• professeurs en génie civil spécialisés dans les ponts
Calendrier 2016
Séances 1 et 2
Séances 3 et 4
Séances 5 et 6
Séances 7 et 8
27 avril, 12 h et 15 h (HAE)
4 mai, 12 h et 15 h (HAE)
5 mai, 12 h et 15 h (HAE)
Conférenciers
Gilbert Grondin, Ph.D., P.Eng.
Ingénieur principal des ponts, AECOM
Professeur adjoint, Université de l’Alberta
Avant de se joindre à AECOM en juin 2012, il a été professeur
de génie civil à l’Université de l’Alberta pendant 17 ans. Ses
recherches portaient sur le comportement des assemblages,
la fatigue des charpentes d’acier, les cloisons en tôle épaisse,
et les tôles raidies. Il est membre du comité CSA - S16 et du
Bolt Council on Structures Connections, ainsi que président du
sous-comité des charpentes en acier (CSA - S6).
Jean de Gaspé Lizotte, ing., M.Sc.
Directeur, Projets spéciaux, Dessau Soprin inc.
A débuté de sa carrière en tant qu’ingénieur concepteur
chez Dominion Bridge inc., pour la poursuivre ensuite dans
le domaine du génie conseil. Il compte plus de trente-deux
années d’expérience dans la conception, l’évaluation et la
réhabilitation de structures, ponts et autres ouvrages d’art
au Canada et à l’étranger. Il est présentement directeur des
projets spéciaux et chef d’équipe au service «Ponts et ouvrages
d’art» de la firme Dessau Inc. Dans le domaine spécifique des
ponts, il a réalisé des projets touchant plusieurs centaines
d’ouvrages au Canada et dans divers pays tel que l’Algérie, le
Pérou, la Jamaïque, la Grenade, Trinidad, Haïti, Madagascar, le
Vietnam, la Malaisie, le Cameroun et le Burkina Faso.
Il est membres du sous-comité technique du chapitre 10 Ouvrages en acier, de la norme CSA-S6 Code canadien sur le
calcul des ponts routiers et est le président du comité CSA-S16
Règles de calcul aux états limites des charpentes en acier.
13
NOUVEAUTÉS CSA S16-14 ET SURVOL DU HANDBOOK 11
FRAIS D’INSCRIPTION – 8 HEURES: 4 SÉANCES (0,8 UNITÉ UFC)
Cours
Avec
complet
Handbook 11
Au moins 30 jours avant le cours
$450
$690
Moins de 30 jours avant le cours
$500
$740
S16 séance
seulement
$230
$255
NOUVEAU
COURS EN LIGNE
St, Fb
Dt, Ed
Ce cours traite des modifications apportées à
la norme CSA S16-14 et au dimensionnement
des charpentes métalliques à l’aide de la 11e
Édition du « Handbook of Steel Construction ».
Les personnes intéressées peuvent s’inscrire aux
quatre séances (0,8 UFC sera accordé à la fin du
cours), ou à la séance unique sur la norme CSA
S16-14 (0,2 UFC sera accordé à la fin du cours).
De plus, des offres de remise groupées avec le «
Handbook » seront proposées aux participants lors
de l’inscription.
La première séance intitulée « Modifications
à la norme CSA S16-14 » traite des principaux
changements et des nouvelles dispositions
introduites à la norme CSA-S16-14, « Règles de
calcul des charpentes en acier », y compris l’article
27 sur le calcul parasismique. Le cours comprend
également un bref aperçu du « Handbook ».
Le but des trois prochaines séances est d’aider
les participants à comprendre le contexte et
l’utilisation des outils de calcul contenus dans le
« Handbook » tout en attirant leur attention sur
les modifications, les ajouts et les aides au calcul
souvent méconnues. Cependant, le comportement
général et la conception parasismique des
bâtiments ne sont pas compris dans ce cours.
La portion du cours « Survol du Handbook» se
réfère à de nombreux exemples pour illustrer les
méthodes de calcul des assemblages courants
(cornière simple, cornières doubles, plaque
d’extrémité et assemblage à une plaque), des
pièces tendues, des pièces comprimées et des
pièces en flexion (composites et non composites).
• Aux ingénieurs, technologues et techniciens
possédant une formation dans le calcul et la
conception de structures
• Professeurs et chargés de cours en génie civil
qui utilisent le « Handbook » comme matériel
didactique
Calendrier 2016
Séances 1 et 2
Séances 3 et 4
Conférenciers
Hellen Christodoulou, Ph.D., ing., B.C.L., LL.B., M.B.A.
Directrice Régionale-Québec, Institut canadien de la
construction en acier
Charles Albert, M.Sc.E., P.Eng.
Directeur des publications techniques, Institut canadien de la
construction en acier
Hellen apporte plus de 30 ans d'expérience dans le domaine
des ponts et des structures majeurs de ponts à travers le
Canada, dans la supervision, la conceptualisation et la
conception de projets de ponts de grande envergure, dont
la superstructure et la conceptions d'infrastructures. Elle
a travaillé avec des firmes d'ingénierie et de construction
dominantes dans l'industrie de la construction, ainsi que des
autorités gouvernementales et municipales.
Charles Albert a débuté sa carrière comme associé de
recherche à l’Université de l’Alberta, où il a participé à des
essais et à la modélisation de poutres d’acier en porte-à-faux
avec travées suspendues.
Hellen est diplômé en génie civil, en droit civil et commun et
détient un doctorat et un MBA. Elle a participé à l'écriture et
la présentation d'articles d'ingénierie, a enseigné des cours
d'ingénierie, et participe à de nombreuses conférences sur le
droit et l'ingénierie.
14
Employé à l’ICCA depuis 1991, il a conçu du matériel
pédagogique pour les cours de l’ICCA sur la conception des
bâtiments d’acier, la conception des ponts et la conception
parasismique. Ses autres domaines d’activité comprennent
notamment la préparation de logiciels informatiques et
diverses publications de l’ICCA. Il est actuellement rédacteur
en chef du « Handbook of Steel Construction ».
INSPECTION DES STRUCTURES DE BÂTIMENTS EN ACIER
FRAIS D’INSCRIPTION – COURS DE 4 JOURS (2,8 UNITÉS UFC) + EXAMEN DE 3 HEURES
Cours
+ Handbook
Au moins 30 jours avant le cours
1,420 $
1,615 $
Moins de 30 jours avant le cours
1,575 $
1,770 $
NOUVEAU
COURS
In, St
Fb, Bl
Frais d’examen d’accréditation 200 $ à l’inscription au cours ou 750 $ examen de reconnaissance des acquis
Ce cours aborde les exigences, les recommandations et ressources pour l’inspection des bâtiments
à charpente d'acier.
Les normes et documents régissant abordés sont:
• Code national du bâtiment du Canada 2010
• CSA S16-09 des charpentes en acier
• ICCA - Code de pratique standard pour l’acier de
charpente
• CSA W59-03 (09) Construction soudée en acier
(soudage à l'arc)
• ICCA - Guide des systèmes qualité pour la
fabrication de l’acier
Les éléments qui seront examinés sont les suivants:
• Matériaux, nuances et formes d’acier de
charpente
• Fabrication et montage d’acier, tolérances
• Boulonnage à haute résistance, inspection et
installation
• Inspection du soudage, y compris des goujons de
cisaillement
• Essai non destructif et autres outils d’inspection
• Systèmes parasismiques et exigences
• Poutrelles à treillis et fermes ajourées
• Planchers métalliques et dalles de toitures,
caillebotis en acier
• Plans et spécifications d’acier de charpente
• Préparation des surfaces, application de
revêtements et galvanisation
• Sécurité
La discussion portera sur les exigences techniques
et méthodologies détaillées pour l'exécution
simultanée d'un contrôle de la qualité (production)
et l’inspection d’assurance de la qualité (tiers) en
perspective d'inspection. Un exam final facultatif
de 3 heures est mené pour l'accréditation, le matin
du 5e jour. Les experts peuvent écrire l’examen
seulement.
• agences d'inspection indépendantes et
inspecteurs certifiés de soudage
• agents de bâtiment impliqués dans
l'approbation ou l'inspection
• fabricants et les monteurs d'acier
• les concepteurs, constructeurs, les propriétaires
et autres spécialistes de charpentes en acier
Calendrier 2015
Montréal, QC
5 octobre, 13 h au 9 octobre, 11 h 30
Conférencier
Danilo D’Aronco, M.Ing., ing.
Associé et directeur de l’ingénierie, DPHV
Danilo D’Aronco possède plusieurs années d’expérience dans
le domaine des charpentes métalliques, et ce tant dans les
ouvrages temporaires que permanents. Ingénieur en structure,
il a obtenu son diplôme de l’Université de Sherbrooke et
sa maîtrise de l’École Polytechnique de Montréal. Il s’est
spécialisé par la suite afin d’obtenir son titre d’ingénieur
en soudage. Avec la firme DPHV, il a été impliqué dans
divers projets d’ingénierie tels les différentes phases de la
reconstruction de Ground Zero tant pour la Freedom Tower,
la tour 4 que pour le « Transportation Hub ». Outre son
expertise au niveau de la conception d’assemblages boulonnés
et soudés, M. D’Aronco collabore avec l’Université McGill et
l’École Polytechnique à divers programmes de recherche sur
les assemblages.
CHEMINEMENT À L’ACCRÉDITATION DE L’ICCA
Un participant qui obtient une note de 80% à l’exam final de ce cours sera désigné par
l’ICCA comme un inspecteur accrédité – bâtiments en acier.
15
SELF-PACED LEARNING
At your fingertips.
THIS FLEXIBLE WAY OF LEARNING ENABLES YOU TO DECIDE WHEN AND WHERE TO LEARN WHILE EAR
TRAINING IN THE COMFORT OF YOUR HOME OR OFFICE. REGISTRATION INCLUDES: ACCESS TO RECORD
FINAL EXAM WITH COURSE L
Webinars
Architecturally Exposed Structural Steel - Part 1, Guide (1.5 hr)
Introduction to the AESS documents from CISC on the Design and Specification of Architecturally
Exposed Structural Steel including the CISC AESS Category system.
Architecturally Exposed Structural Steel - Part 2, Applied (1.5 hr)
Application of the CISC AESS Category system to a survey of prominent, innovative AESS structures,
with a focus on detailing and connection strategies as well as best practices for use of the system during
bidding and construction.
Architecturally Exposed Structural Steel - Part 3, Innovations (1.5 hr)
Examination of the use of AESS in more challenging projects, from the perspective of the inclusion of
items such as large castings, curved steel, tension elements and eccentric geometries.
Architecturally Exposed Structural Steel - Part 4, Innovation in Detailing & Connections (1.5 hr)
Looks more closely at the creation of connection details to look at innovative ways to create high quality
connections that can be classed across the AESS categories.
Budget Pricing for Steel (1.5 hr)
Provides information and methodology required to prepare cost effective budget prices for steel
structures.
Fire Protection of Structural Steel (1.5 hr)
How fire protection requirements of the National Building Code are applied to steel-framed buildings.
Topics include intumescent coatings, sprayed materials, rigid boards, concrete-filling, along with
performance-based fire protection engineering.
BUNDLE & SAVE!
Register for multiple Self-Paced Learning Webinars and save up to 25% at registration
Any 2 SPL Webinars - SAVE 10%
All 5 SPL Webinars - SAVE 25%
16
SELF-PACED LEARNING
At your convenience.
RNING CONTINUOUS EDUCATION UNITS (CEU’S). YOU GET ALL THE ADVANTAGES OF LIVE, IN-PERSON
DINGS AND ALL DISTRIBUTED MATERIAL, ALONG WITH ONE-ON-ONE Q&A, SET-UP AND MARKING OF
LEADER, WHERE APPLICABLE.
Low Storey Height Steel Framing Solutions (1.5 hr)
Reviews several framing methods that result in reduced floor-to-floor heights for multi-storey residential
buildings and hotels.
Steel Design for Low Seismicity (1.5 hr)
Presents information on earthquake load and design considerations in the NBCC 2010 and CSA S16-09 as
they relate to regions of low seismicity.
Steel Erection Estimating (1.5 hr)
Provides an understanding of what goes into the pricing erection of structural steel.
Courses
Connections I (40 hr)
Intended to assist steel fabrication personnel in their understanding of basic connection design principles
and to design simple welded and bolted connections suitable for fabrication. (See p.7)
Connections II (40 hr)
Intended to assist steel industry personnel and others in their understanding of more complex welded
and bolted connections suitable for fabrication. Pathway to CISC Accredited Steel Connections Designer Conventional Construction. (see p.8)
CSA S16-09 Changes & Steel Handbook Highlights (8 hr)
Covers changes in CSA S16-09 and the design of steel members and elements using the 10th Edition of
the Handbook of Steel Construction. (See p.5)
Single Storey Building Design (8 hr)
Focuses on practical and economical solutions for framing a single storey warehouse building with
attached office area to the requirements of the 2010 National Building Code of Canada and the
pertinent provisions of CSA Standard S16-09.
Statics and Strength of Materials (60 hr)
Introduction to the basic principles of statics and strength of materials steel for
fabrication personnel with applications to simple structures by calculating the
stresses exerted and by analyzing the behavior of materials under stress. It also
includes the source of rules and standards used in the steel industry. (See p.6)
For more information visit our website www.cisc-icca.ca/courses or scan the QC barcode
17
ADMINISTRATION AND POLICIES
Registration and Confirmation
• Register on-line at: www.cisc-icca.ca/courses
• Number of places is limited, early registration is recommended
• Registrations will be confirmed only upon receipt of payment
Withdrawal
Requests for refunds and substitutions must be made in writing and are subject to the
following conditions:
• 15 business days or more prior to start date, full refund.
• Less than 15 days, refund is subject to a 20% administration fee plus GST/HST.
• 3 business days or less, no refund.
• Substitutions are acceptable at any time, provided notice is given prior to start date.
Cancellation
CISC reserves the right to cancel any course and refund the course fee.
Continuing Education Units (CEU)
CISC courses are eligible for internationally recognized Continuing Education Units (CEU). CISC will
provide a digital CEU Certificate based on attendance.
Course Discounts
CISC offers course discounts for educators, students and groups. Please contact CISC for specifics.
ADMINISTRATION ET POLITIQUES
Inscription et confirmation
• Inscrivez-vous en ligne à : www.cisc-icca.ca/courses
• Le nombre de places étant limité, il est recommandé de s’inscrire tôt.
• Les inscriptions seront confirmées sur réception du paiement seulement.
Désistement
Les demandes de remboursement doivent être effectuées par écrit et sont sujettes aux conditions
suivantes :
• 15 jours ouvrables ou plus avant le cours, remboursement complet
• Moins de 15 jours avant le cours, déduction de 20% plus taxe pour couvrir les frais d’administration.
• 3 jours ouvrables ou moins, aucun remboursement.
• Remplaçant(e) accepté(e) à tout moment sur préavis donné à l'ICCA avant le début du cours.
Annulation
L’ICCA se réserve le droit d’annuler tout cours et d’en rembourser les frais.
Unités de formation continue (UFC)
Les cours de l’ICCA sont admissibles aux unités de formation continue (UFC) reconnues à l’échelle
mondiale. L’ICCA octroiera un certificat numérique d'UFC à tous les participants basé sur la participation
au cours.
Rabais sur les cours
L'ICCA accorde des rabais sur les cours aux éducateurs, étudiants et groupes. Communiquez avec l’ICCA
pour plus de détails.
18
Jan 5 to
Mar 10
SelfPaced
Learning
Nov
25-26
Jan
20-21
27-28
27-28
avr et
4-5 mai
6 et 7
avril
(p4)
(p5)
(p7)
(p7)
(p8)
(p9)
(p10)
(p11)
Connections l
(CSA S16-09)
Until Oct 6, 2015
Connections I
(CSA S16-14)
Live
Connections II
Inspection of Steel
Building Structures
Single Story
Building Design
Industrial Building
Design
Steel Bridges – Design,
Fabrication, Construction (p12)
(p13)
CSA S16-14 Changes
& Steel Handbook 11
Highlights
Conception, fabrication
et construction de ponts
en acier
Nouveautés CSA S16-14
et survol du Handbook 11 (p14)
Inspection des structures
(p15)
de bâtiments en acier
Nov 19
Page #
SelfPaced
Learning
SelfPaced
Learning
Feb 3-4
Webinar 1
Hot Topic Webinars
Webinar 2
Dec 3
Webinar 3
Mar 9
Moncton
Oct 19-23
Montréal (F)
5 au 9
oct
Toronto
Oct
26-30
Edmonton
Feb
8-12
LOCATIONS AND DATES / EMPLACEMENTS ET DATES
19
Vancouver
Calgary
Regina
Saskatoon
Winnipeg
Thunder Bay
Ottawa
Montréal (E)
Québec (F)
Frdericton
Halifax
St. John's
Webinar 4
Inspection of Steel Building Structures
Atlantic Region (TBA) October 19-23, 2015 Toronto October 26-30, 2015
Edmonton February 8-12, 2016
A 4-day course and optional 3-hour exam providing will
provide participants with requirements, recommendations
and resources for the inspection of steel-framed buildings.
Governing standards and documents discussed include:
Ě
Ě
Ě
Ě
Ě
1DWLRQDO%XLOGLQJ&RGHRI&DQDGD
&6$6'HVLJQRI6WHHO6WUXFWXUHV
&,6&&RGHRI6WDQGDUG3UDFWLFHIRU6WUXFWXUDO6WHHO
&6$::HOGHG6WHHO&RQVWUXFWLRQ
0HWDO$UF:HOGLQJ
&,6&6WHHO)DEULFDWLRQ4XDOLW\6\VWHPV*XLGHOLQH
The elements to be discussed include:
Ě
Ě
Ě
Ě
Ě
Ě
Ě
Ě
Ě
Ě
Ě
6WUXFWXUDOVWHHOPDWHULDOVJUDGHVDQGVKDSHV
6WHHOIDEULFDWLRQDQGHUHFWLRQWROHUDQFHV
+LJKVWUHQJWKEROWLQJLQVSHFWLRQDQGLQVWDOODWLRQ
:HOGLQJLQVSHFWLRQLQFOXGLQJVKHDUVWXGV
1RQGHVWUXFWLYHWHVWLQJDQGRWKHULQVSHFWLRQWRROV
6HLVPLFV\VWHPVDQGUHTXLUHPHQWV
2:6-DQGMRLVWJLUGHUV
6WHHOûRRUDQGURRIGHFNV\VWHPVDQGVWHHOEDUJUDWLQJ
6WUXFWXUDOVWHHOSODQVDQGVSHFLúFDWLRQV
6XUIDFHSUHSDUDWLRQFRDWLQJVDSSOLFDWLRQDQGJDOYDQL]LQJ
6DIHW\
'LVFXVVLRQZLOOLQFOXGHERWKGHWDLOHGWHFKQLFDOUHTXLUHPHQWV
and methodologies for implementation from both a quality
FRQWUROSURGXFWLRQDQGTXDOLW\DVVXUDQFHWKLUGSDUW\
LQVSHFWLRQSHUVSHFWLYH$QRSWLRQDOKRXUúQDOH[DPLV
FRQGXFWHGIRUDFFUHGLWDWLRQWKHPRUQLQJRIWKHúIWKGD\
CISC Accredited Steel Inspector – Buildings
$FRXUVHSDUWLFLSDQWZKRDFKLHYHVDQJUDGHRQWKH
úQDOH[DPIRUWKLVFRXUVHZLOOEHGHVLJQDWHGE\&,6&DVDQ
$FFUHGLWHG6WHHO,QVSHFWRU%XLOGLQJV
&OLFNKHUHIRUDIXOO&RXUVH2XWOLQH, Examination Rules and a
/LVWRI'RFXPHQWV Required during Examination.
Who should attend?
Ě 7KLUGSDUW\LQVSHFWLRQDJHQFLHVDQGFHUWLúHGZHOGLQJ
inspectors
Ě &RGHRIúFLDOVLQYROYHGLQDSSURYDOVRULQVSHFWLRQ
Ě 6WHHOIDEULFDWRUVDQGHUHFWRUV
Ě 'HVLJQHQJLQHHUVFRQVWUXFWRUVRZQHUVDQGVSHFLúHUVRI
steel structures
Course Leader
Robert E. Shaw, Jr., PE 3UHVLGHQW6WHHO6WUXFWXUHV7HFKQRORJ\&HQWHU,QF
%REEHJDQKLVFDUHHULQWKHVWHHOFRQVWUXFWLRQLQGXVWU\LQ+HIRXQGHGWKH667&LQIRFXVLQJRQ
technical education related to the design, fabrication, erection and inspection of steel-framed structures, and
provides consulting services in steel construction practices and quality issues.
%RELVDXWKRURIWKHPDQ\SXEOLFDWLRQVSXEOLVKHGE\667&+HLVDPHPEHURIWKH$,6&6SHFLúFDWLRQV&RPPLWWHH
7&RQ4XDOLW\&RQWURODQG4XDOLW\$VVXUDQFH7&RQ&RQQHFWLRQVDQG7&RQ6HLVPLF,VVXHV5&6&
6SHFLúFDWLRQV&RPPLWWHH$:6'6WUXFWXUDO:HOGLQJ&RPPLWWHH6XEFRPPLWWHH'4RQ6WHHO'DQG'/
RQ6HLVPLF:HOGLQJ'+HLV&KDLUPDQRIWKH,QWHUQDWLRQDO,QVWLWXWHRI:HOGLQJďV&RPPLVVLRQ;9RQ'HVLJQ
$QDO\VLVDQG)DEULFDWLRQRI:HOGHG6WUXFWXUHVDQGDOVRFKDLUVVXEFRPPLVVLRQ;9&RQ)DEULFDWLRQ
+HDOVRVHUYHG$,6&DV$VVRFLDWH'LUHFWRURI(GXFDWLRQDQGDV5HJLRQDO(QJLQHHU%HIRUHMRLQLQJ$,6&0U6KDZZDVD6DOHV(QJLQHHUIRUD
PDMRUVWHHOIDEULFDWRU
Pricing: Different packages are available
Early Bird VWDUWVDWĚ5HJXODUVWDUWVDW

Course Calendar - CISC-ICCA

Transcription

Documents pareils

1/4", 1/2", 3/4", 1" ,1-1/4"

Frederick Winslow Taylor Né dans une famille aisée à Germantown

49” x 72”

100 0240 003 - Rear Step Ladder SS.ai

Encan / Auction Sale - Ti

472-MINIGUN

SW-KAT-Ordner 012005 neu

autek maquinaria 5392 7077 autek maquinaria 5392 7077

pour une architecture créative

SC8836 - Longevity Acrylics Inc