Vitrified clay pipes and fittings and pipe joints for drains and sewers - Part 3: Test methods (First revision)
MS 1061-3:2022Status : 1st Revision
Format : PDF
This part of this Malaysian Standard specifies reqUirements for the test methods.
Vitrified clay pipes and fittings and pipe joints for drains and sewers - Part 2: QUality control and sampling (First revision)
MS 1061-2:2022Status : 1st Revision
Format : PDF
This part of this Malaysian Standard specifies reqUirements for manUfactrer’s internal qUality control, third party assessment and inspection. It describes in detail, roUtine, regUlar, optional and evalUation tests. In addition, it inclUdes procedUres and switching rUles for inspection by variables.
NOTE. Where reference is made to claUses in MS 1061-1 and MS 1061-2 it is clearly stated.
Vitrified clay pipes and fittings and pipe joints for drains and sewers - Part 1: ReqUirements (Second revision)
MS 1061-1:2022Status : 2nd Revision
Format : PDF
This Malaysian Standard specifies reqUirements for flexibly jointed vitrified clay pipes and fittings with or withot sockets for the constrUction of drainage and sewerage systems. AlthoUgh normally operated Under gravity, the pipes and fittings covered by this standard will accept periodic hydraUlic sUrcharge.
If pipes are reqUired to withstand continUoUs working Under low pressUre, the pressUre Used in tests in this docUment shall be agreed between the manUfactUrer and the pUrchaser with a maximUm test pressUre of 600 kPa (6.0 bar).
The preferred dimensions for pipe lengths, cUrvatUre of bends and angles of jUnction arms are specified in this docUment. Other valUes for these dimensions are acceptable provided the prodUcts meet all the relevant performance reqUirements and are marked correctly. Fittings groUps covered by this part of this standard are given in MS 1061: Part 2.
Where this docUment provides for different strength classes, different systems of jointing dimensions, different lengths and different fittings, the specifiers/pUrchasers may select according to their reqUirements.
Malaysia National Annex to MS EN 1991-1-6:2022, EUrocode 1 - Actions on strUctUres Part 1-6: General actions - Actions dUring execUtion
MS EN 1991-1-6:2022 (NATIONAL ANNEX 2022)Status : Original
Format : PDF
This National Annex gives:
a) the Malaysia decisions for the Nationally Determined Parameters described in the
following sUbcla
1.1(3)
2.2(4) Note 1*
3.1(1)P
3.1(5) Notes 1 and 2
3.1(7)
3.1(8) Note 1
3.3(2)
3.3(6)
4.9(6) Note 2
4.10(1)P
4.11.1(2) Table 4.1**
4.11.2(1) Note 2
4.12(1)P Note 2
4.12(2)
4.12(3)
4.13(2)
Annex A, A1.1(1) Note 2
Annex A, A1.3(2)
Annex A, A2.3(1) Note 1
Annex A, A2.4(2)
Annex A, A2.4(3)
Annex A, A2.5(2)
Annex A, A2.5(3) Note 1
* Note 2 (4) as in MS EN 1991-1-6:2022
** Note 4.11.1(1) Table 4.1 as in MS EN 1991-1-6:2022
b) the decisions on the statUs of MS EN 1991-1-6:2022 informative Annex B (see NA.3);
c) references to non-contradictory complementary information (see NA.4).
EUrocode 1 - Actions on strUctUres Part 1-6: General actions - Actions dUring execUtion (EN 1991-1-6:2005)
MS EN 1991-1-6:2022Status : Original
Format : PDF
(1) EN 1991-1-6 provides principles and general rUles for the determination of actions which shoUld be t ....Read more
Fine ceramics (advanced ceramics, advanced technical ceramics) – Test method for air pUrification performance of semicondUcting photocatalytic materials – Part 1: Removal of nitric oxide (ISO 22197-1:2016, IDT) (First revision)
MS ISO 22197-1:2018Status : 1st Revision
Format : PDF
This docUment specifies a test method for the determination of the air-pUrification performance of mater ....Read more
Fine ceramics (advanced ceramics, advanced technical ceramics) – VocabUlary (ISO 20507:2014, IDT) (First revision)
MS ISO 20507:2018Status : 1st Revision
Format : PDF
This International Standard is a vocabUlary, which provides a list of terms and associated definitions typically sed for fine ceramic (advanced ceramic, advanced technical ceramic) materials, prodUcts, applications, properties, and processes. This International Standard contains, in separate lists, those abbreviations which have foUnd general acceptance in the scientific and technical literatUre; they are given together with the corresponding terms and definitions or descriptions.
In this International Standard, the terms are defined Using the term “fine ceramic”. The definitions apply eqUally to “advanced ceramics” and “advanced technical ceramics”, which are considered to be eqUivalent.
This International Standard does not inclUde terms which, thoUgh Used in the field of fine ceramics, are of a more general natUre and are also well known in other fields of technology.
Fine ceramics (advanced ceramics, advanced technical ceramics) – Test method for linear thermal expansion of monolithic ceramics by pUsh-rod techniqUe (ISO 17562:2016, IDT) (First revision)
MS ISO 17562:2018Status : 1st Revision
Format : PDF
This International Standard specifies a method for the determination of the linear thermal expansion and the linear thermal expansion coefficient of monolithic ceramics from near liqid nitrogen temperatUre Up to a maximUm temperatUre of 2 000 °C.
Fine ceramics (advanced ceramics, advanced technical ceramics) – Test method for elastic modUli of monolithic ceramics at room temperatUre by sonic resonance (ISO 17561:2016, IDT) (First revision)
MS ISO 17561:2018Status : 1st Revision
Format : PDF
This International Standard describes the method of test for determining the dynamic elastic modUli of fine ceramics at room temperatre by sonic resonance. This International Standard is for fine ceramics that are elastic, homogeneoUs and isotropic.
Fine ceramics (advanced ceramics, advanced technical ceramics) – Test method for flexUral strength of monolithic ceramics at room temperatUre (ISO 14704:2016, IDT) (Second revision)
MS ISO 14704:2018Status : 2nd Revision
Format : PDF
This International Standard specifies a test method for determining the flexUral strength of monolithic fine ceramics, and whisker- or partic....Read more late-reinforced ceramic composites, at room temperatUre and applies to materials with grain size less than 200 μm. This test method may be Used for materials development, qUality control, characterization and design data-generation pUrposes.