BS ISO 20332:2016
Current
The latest, up-to-date edition.
Cranes. Proof of competence of steel structures
Hardcopy , PDF
English
12-03-2018
Foreword
1 Scope
2 Normative references
3 Terms, definitions, symbols and abbreviated terms
4 General
5 Proof of static strength
6 Proof of fatigue strength
7 Proof of elastic stability
Annex A (informative) - Limit design shear force, F[v,Rd,]
in shank per bolt and per shear plane for multiple shear
plane connections
Annex B (informative) - Preloaded bolts
Annex C (normative) - Design weld stresses, [sigma][w,Sd]
and [tau][w,Sd]
Annex D (normative) - Values of slope constant, m, and
characteristic fatigue strength, [delta][sigma][c],
[delta][tau][c]
Annex E (normative) - Calculated values of limit design
stress range, [delta][sigma][Rd] and [delta][sigma][Rd,1]
Annex F (informative) - Evaluation of stress cycles - Example
Annex G (informative) - Calculation of stiffnesses for connections
loaded in tension
Bibliography
Provides general conditions, requirements, methods, and parameter values for performing proof-of-competence determinations of the steel structures of cranes based upon the limit state method.
Committee |
MHE/3
|
DevelopmentNote |
Supersedes 13/30275387 DC. (06/2016)
|
DocumentType |
Standard
|
ISBN |
9780539031959
|
Pages |
104
|
PublisherName |
British Standards Institution
|
Status |
Current
|
Supersedes |
This International Standard sets forth general conditions, requirements, methods, and parameter values for performing proof-of-competence determinations of the steel structures of cranes based upon the limit state method. It is intended to be used together with the loads and load combinations of the applicable parts of ISO 8686.
This International Standard is general and covers cranes of all types. Other International Standards can give specific proof-of-competence requirements for particular crane types.
Proof-of-competence determinations, by theoretical calculations and/or testing, are intended to prevent hazards related to the performance of the structure by establishing the limits of strength, e.g. yield, ultimate, fatigue, and brittle fracture.
According to ISO 8686-1 there are two general approaches to proof-of-competence calculations: the limit state method, employing partial safety factors, and the allowable stress method, employing a global safety factor. Though it does not preclude the validity of allowable stress methodology, ISO 20332 deals only with the limit state method.
Proof-of-competence calculations for components of accessories (e.g. handrails, stairs, walkways, cabins) are not covered by this International Standard. However, the influence of such attachments on the main structure needs to be considered.
Standards | Relationship |
ISO 20332:2016 | Identical |
ISO 404:2013 | Steel and steel products — General technical delivery requirements |
ISO 10721-1:1997 | Steel structures — Part 1: Materials and design |
ISO 4042:1999 | Fasteners Electroplated coatings |
ISO 4306-1:2007 | Cranes — Vocabulary — Part 1: General |
ISO 8686-5:2017 | Cranes — Design principles for loads and load combinations — Part 5: Overhead travelling and portal bridge cranes |
ISO 9587:2007 | Metallic and other inorganic coatings Pretreatment of iron or steel to reduce the risk of hydrogen embrittlement |
ISO 4951-3:2001 | High yield strength steel bars and sections — Part 3: Delivery conditions for thermomechanically-rolled steels |
ISO 8686-1:2012 | Cranes — Design principles for loads and load combinations — Part 1: General |
ISO 15330:1999 | Fasteners — Preloading test for the detection of hydrogen embrittlement — Parallel bearing surface method |
ISO 9013:2017 | Thermal cutting — Classification of thermal cuts — Geometrical product specification and quality tolerances |
ISO 8686-4:2005 | Cranes Design principles for loads and load combinations Part 4: Jib cranes |
ISO 12100:2010 | Safety of machinery — General principles for design — Risk assessment and risk reduction |
ISO 7452:2013 | Hot-rolled steel plates — Tolerances on dimensions and shape |
ISO 148-1:2016 | Metallic materials — Charpy pendulum impact test — Part 1: Test method |
ISO 8686-3:1998 | Cranes Design principles for loads and load combinations Part 3: Tower cranes |
ISO 5817:2014 | Welding — Fusion-welded joints in steel, nickel, titanium and their alloys (beam welding excluded) — Quality levels for imperfections |
ISO 6930-1:2001 | High yield strength steel plates and wide flats for cold forming Part 1: Delivery conditions for thermomechanically-rolled steels |
ISO 4951-1:2001 | High yield strength steel bars and sections — Part 1: General delivery requirements |
ISO 7788:1985 | Steel — Surface finish of hot-rolled plates and wide flats — Delivery requirements |
ISO 286-2:2010 | Geometrical product specifications (GPS) ISO code system for tolerances on linear sizes Part 2: Tables of standard tolerance classes and limit deviations for holes and shafts |
ISO 273:1979 | Fasteners — Clearance holes for bolts and screws |
ISO 8686-2:2004 | Cranes Design principles for loads and load combinations Part 2: Mobile cranes |
ISO 4951-2:2001 | High yield strength steel bars and sections — Part 2: Delivery conditions for normalized, normalized rolled and as-rolled steels |
ISO 4301-1:2016 | Cranes — Classification — Part 1: General |
ISO 4950-1:1995 | High yield strength flat steel products — Part 1: General requirements |
ISO 17659:2002 | Welding — Multilingual terms for welded joints with illustrations |
ISO 898-1:2013 | Mechanical properties of fasteners made of carbon steel and alloy steel — Part 1: Bolts, screws and studs with specified property classes — Coarse thread and fine pitch thread |
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