I.S. EN ISO 15630-1:2010
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
View Superseded by
STEEL FOR THE REINFORCEMENT AND PRESTRESSING OF CONCRETE - TEST METHODS - PART 1: REINFORCING BARS, WIRE ROD AND WIRE
Hardcopy , PDF
04-04-2019
English
01-01-2010
For Harmonized Standards, check the EU site to confirm that the Standard is cited in the Official Journal.
Only cited Standards give presumption of conformance to New Approach Directives/Regulations.
Foreword
Introduction
1 Scope
2 Normative references
3 Symbols
4 General provisions concerning test pieces
5 Tensile test
6 Bend test
7 Rebend test
8 Axial load fatigue test
9 Chemical analysis
10 Measurement of the geometrical characteristics
11 Determination of the relative rib or indentation area
(f[R] or f[P])
12 Determination of deviation from nominal mass per metre
13 Test report
Bibliography
Defines test methods applicable to reinforcing bars, wire rod and wire for concrete.
DevelopmentNote |
Supersedes I.S. ENV 10080. (10/2005)
|
DocumentType |
Standard
|
Pages |
35
|
PublisherName |
National Standards Authority of Ireland
|
Status |
Superseded
|
SupersededBy | |
Supersedes |
Standards | Relationship |
EN ISO 15630-1:2010 | Identical |
SN EN ISO 15630-1 : 2010 | Identical |
NEN EN ISO 15630-1 : 2010 | Identical |
NF EN ISO 15630-1 : 2010 | Identical |
ONORM EN ISO 15630-1 : 2011 | Identical |
ISO 15630-1:2010 | Identical |
UNI EN ISO 15630-1 : 2010 | Identical |
NBN EN ISO 15630-1 : 2010 | Identical |
BS EN ISO 15630-1:2010 | Identical |
NS EN ISO 15630-1 : 2010 | Identical |
DIN EN ISO 15630-1:2011-02 | Identical |
UNE-EN ISO 15630-1:2003 | Identical |
ISO 4945:1977 | Steel Determination of nitrogen content Spectrophotometric method |
ISO 10701:1994 | Steel and iron — Determination of sulfur content — Methylene blue spectrophotometric method |
ISO 13898-2:1997 | Steel and iron Determination of nickel, copper and cobalt contents Inductively coupled plasma atomic emission spectrometric method Part 2: Determination of nickel content |
ISO 671:1982 | Steel and cast iron Determination of sulphur content Combustion titrimetric method |
ISO 4947:1986 | Steel and cast iron Determination of vanadium content Potentiometric titration method |
ISO 10697-1:1992 | Steel — Determination of calcium content by flame atomic absorption spectrometry — Part 1: Determination of acid-soluble calcium content |
ISO 15353:2001 | Steel and iron — Determination of tin content — Flame atomic absorption spectrometric method (extraction as Sn-SCN) |
ISO 4946:2016 | Steel and cast iron Determination of copper 2,2'-Biquinoline spectrophotometric method |
ISO/TR 17055:2002 | Steel Determination of silicon content Inductively coupled plasma atomic emission spectrometric method |
ISO 11652:1997 | Steel and iron Determination of cobalt content Flame atomic absorption spectrometric method |
ISO 17053:2005 | Steel and iron — Determination of oxygen — Infrared method after fusion under inert gas |
ISO 10702:1993 | Steel and iron — Determination of nitrogen content — Titrimetric method after distillation |
ISO 13898-3:1997 | Steel and iron Determination of nickel, copper and cobalt contents Inductively coupled plasma atomic emission spectrometric method Part 3: Determination of copper content |
ISO 4829-1:1986 | Steel and cast iron Determination of total silicon content Reduced molybdosilicate spectrophotometric method Part 1: Silicon contents between 0,05 and 1,0 % |
ISO 4941:1994 | Steel and iron — Determination of molybdenum content — Thiocyanate spectrophotometric method |
ISO 13900:1997 | Steel — Determination of boron content — Curcumin spectrophotometric method after distillation |
ISO 10278:1995 | Steel — Determination of manganese content — Inductively coupled plasma atomic emission spectrometric method |
ISO 6892-1:2016 | Metallic materials Tensile testing Part 1: Method of test at room temperature |
ISO 4937:1986 | Steel and iron — Determination of chromium content — Potentiometric or visual titration method |
ISO 13902:1997 | Steel and iron — Determination of high sulfur content — Infrared absorption method after combustion in an induction furnace |
ISO 4943:1985 | Steel and cast iron — Determination of copper content — Flame atomic absorption spectrometric method |
ISO 629:1982 | Steel and cast iron — Determination of manganese content — Spectrophotometric method |
ISO 4939:2016 | Steel Determination of nickel Dimethylglyoxime spectrophotometric method |
ISO 4935:1989 | Steel and iron — Determination of sulfur content — Infrared absorption method after combustion in an induction furnace |
ISO 17058:2004 | Steel and iron — Determination of arsenic content — Spectrophotometric method |
ISO/TR 15349-3:1998 | Unalloyed steel Determination of low carbon content Part 3: Infrared absorption method after combustion in an electric resistance furnace (with preheating) |
ISO 13898-4:1997 | Steel and iron Determination of nickel, copper and cobalt contents Inductively coupled plasma atomic emission spectrometric method Part 4: Determination of cobalt content |
ISO/TS 13899-3:2005 | Steel — Determination of Mo, Nb and W contents in alloyed steel — Inductively coupled plasma atomic emission spectrometric method — Part 3: Determination of W content |
ISO 10280:1991 | Steel and iron — Determination of titanium content — Diantipyrylmethane spectrometric method |
ISO 4938:2016 | Steel and iron Determination of nickel content Gravimetric or titrimetric method |
ISO 9513:2012 | Metallic materials — Calibration of extensometer systems used in uniaxial testing |
ISO/TR 10719:1994 | Steel and iron Determination of non-combined carbon content Infrared absorption method after combustion in an induction furnace |
ISO 439:1994 | Steel and iron Determination of total silicon content Gravimetric method |
ISO 7438:2016 | Metallic materials Bend test |
ISO 11653:1997 | Steel — Determination of high cobalt content — Potentiometric titration method after separation by ion exchange |
ISO 4942:2016 | Steels and irons Determination of vanadium content N-BPHA spectrophotometric method |
ISO/TR 4830-4:1978 | Steel Determination of low carbon contents Part 4: Coulometric method after combustion |
ISO 437:1982 | Steel and cast iron Determination of total carbon content Combustion gravimetric method |
ISO 9658:1990 | Steel — Determination of aluminium content — Flame atomic absorption spectrometric method |
ISO/TS 13899-1:2004 | Steel — Determination of Mo, Nb and W contents in alloyed steel — Inductively coupled plasma atomic emission spectrometric method — Part 1: Determination of Mo content |
ISO 4940:1985 | Steel and cast iron — Determination of nickel content — Flame atomic absorption spectrometric method |
ISO 10700:1994 | Steel and iron — Determination of manganese content — Flame atomic absorption spectrometric method |
ISO 15351:1999 | Steel and iron — Determination of nitrogen content — Thermal conductimetric method after fusion in a current of inert gas (Routine method) |
ISO 10714:1992 | Steel and iron — Determination of phosphorus content — Phosphovanadomolybdate spectrophotometric method |
ISO 4829-2:2016 | Steels Determination of total silicon contents Reduced molybdosilicate spectrophotometric method Part 2: Silicon contents between 0,01 % and 0,05 % |
ISO 15349-2:1999 | Unalloyed steel Determination of low carbon content Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) |
ISO 17054:2010 | Routine method for analysis of high alloy steel by X-ray fluorescence spectrometry (XRF) by using a near-by technique |
ISO 9647:1989 | Steel and iron Determination of vanadium content Flame atomic absorption spectrometric method |
ISO 13899-2:2005 | Steel — Determination of Mo, Nb and W contents in alloyed steel — Inductively coupled plasma atomic emission spectrometric method — Part 2: Determination of Nb content |
ISO 9441:1988 | Steel — Determination of niobium content — PAR spectrophotometric method |
ISO 15350:2000 | Steel and iron — Determination of total carbon and sulfur content — Infrared absorption method after combustion in an induction furnace (routine method) |
ISO 13898-1:1997 | Steel and iron Determination of nickel, copper and cobalt contents Inductively coupled plasma atomic emission spectrometric method Part 1: General requirements and sample dissolution |
ISO 9556:1989 | Steel and iron — Determination of total carbon content — Infrared absorption method after combustion in an induction furnace |
ISO 7500-1:2015 | Metallic materials Calibration and verification of static uniaxial testing machines Part 1: Tension/compression testing machines Calibration and verification of the force-measuring system |
ISO 4934:2003 | Steel and iron Determination of sulfur content Gravimetric method |
ISO 16918-1:2009 | Steel and iron — Determination of nine elements by the inductively coupled plasma mass spectrometric method — Part 1: Determination of tin, antimony, cerium, lead and bismuth |
ISO 10720:1997 | Steel and iron — Determination of nitrogen content — Thermal conductimetric method after fusion in a current of inert gas |
ISO 10153:1997 | Steel — Determination of boron content — Curcumin spectrophotometric method |
ISO 10698:1994 | Steel — Determination of antimony content — Electrothermal atomic absorption spectrometric method |
ISO 10138:1991 | Steel and iron — Determination of chromium content — Flame atomic absorption spectrometric method |
ISO 10697-2:1994 | Steel — Determination of calcium content by flame atomic absorption spectrometry — Part 2: Determination of total calcium content |
ISO/TR 15349-1:1998 | Unalloyed steel Determination of low carbon content Part 1: Infrared absorption method after combustion in an electric resistance furnace (by peak separation) |
ISO 15355:1999 | Steel and iron — Determination of chromium content — Indirect titration method |
Access your standards online with a subscription
Features
-
Simple online access to standards, technical information and regulations.
-
Critical updates of standards and customisable alerts and notifications.
-
Multi-user online standards collection: secure, flexible and cost effective.