PayPal, credit cards. Download editable-PDF & invoice in 1 second!
GB/T 41155-2021 English PDF (GBT41155-2021)
GB/T 41155-2021 English PDF (GBT41155-2021)
Precio habitual
$185.00 USD
Precio habitual
Precio de oferta
$185.00 USD
Precio unitario
/
por
Los gastos de envío se calculan en la pantalla de pago.
No se pudo cargar la disponibilidad de retiro
Delivery: 3 seconds. Download true-PDF + Invoice.
Get QUOTATION in 1-minute: Click GB/T 41155-2021
Historical versions: GB/T 41155-2021
Preview True-PDF (Reload/Scroll if blank)
GB/T 41155-2021: Sintered metal materials, excluding hardmetals -- Fatigue test pieces
GB/T 41155-2021
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 77.160
CCS H 21
GB/T 41155-2021 / ISO 3928:2016
Sintered metal materials, excluding hardmetals - Fatigue
test pieces
(ISO 3928:2016, IDT)
ISSUED ON: DECEMBER 31, 2021
IMPLEMENTED ON: JULY 01, 2022
Issued by: State Administration for Market Regulation;
Standardization Administration of PRC.
Table of Contents
Foreword ... 3
1 Scope ... 4
2 Normative references ... 4
3 Terms and definitions... 4
4 Pressed and sintered specimens for reverse bending and axial fatigue testing ... 4
5 Provisions on dies ... 5
6 Machined specimens ... 7
7 Identification of specimens ... 9
Appendix A (Informative) Supplementary instructions ... 10
References ... 11
Sintered metal materials, excluding hardmetals - Fatigue
test pieces
1 Scope
This document specifies the dimensions of the die cavity, which his used for the
preparation of fatigue specimens, by pressing and sintering, the dimensions of the
specimens, which are prepared using this die, the dimensions of the specimens, which
are machined by sintering and powder forging materials.
This document applies to all sintered metals and alloys (excluding hardmetals).
2 Normative references
There are no normative references in this document.
3 Terms and definitions
There are no terms and definitions, that need to be defined, in this document.
4 Pressed and sintered specimens for reverse bending and
axial fatigue testing
4.1 General
The specimens, which are prepared by pressing and sintering, can be further processed,
such as dimensional finishing, polishing or heat treatment. If these treatments are taken,
they shall be noted in the test report. In the metallographic examination of the specimen
section, there shall be no micro-cracks, which have a length exceeding 0.25 mm in the
test area. The pressing die shall be kept in good condition, to avoid burrs. The corners
of the test area of the sintered specimen shall be ground, to remove burrs generated
during the pressing process.
4.2 Requirements for unnotched specimens
The unnotched specimen is as shown in Figure 2a). Flatness and parallelism shall be
0.1 mm. Other dimensions are recommended values.
4.3 Requirements for notched specimens
Appendix A
(Informative)
Supplementary instructions
ISO 1099, ISO 1352, ISO 1143 defines general principles for metal fatigue test
specimens, which apply to the following sintered metals.
a) Sintered metals are characterized by porosity, which inevitably leads to stress
concentrations.
b) Pores reduce the actual cross-sectional area of the specimen to be tested, which
means that the theoretical stress value calculated according to the formula is
smaller than the actual stress value.
c) In most cases, sintered specimens with connected pores on the surface are more
sensitive to the environment than dense materials. Porous products are not only
affected by internal erosion, during fatigue testing, but also before testing;
therefore, such specimens need to be stored with more care than dense material
specimens.
d) The surface state of the specimen or powder metallurgy part will significantly
affect its fatigue performance, so in order to obtain suitable fatigue data from the
fatigue specimen, to evaluate the fatigue performance of the powder metallurgy
part, the surface state of the specimen and the part needs to be comparable.
e) Milling or turning will cause surface densification and residual compressive stress,
which will result in higher fatigue strength than that in the non-machined state
(the grinding operation is gentler). Therefore, the surface of the specimen shall be
machined, only if the critical parts of the powder metallurgy part are also
machined. However, since most powder metallurgy parts have non-machined
surfaces, the assessment of fatigue properties is best done, through the fatigue
data obtained from non-machined surfaces.
Get QUOTATION in 1-minute: Click GB/T 41155-2021
Historical versions: GB/T 41155-2021
Preview True-PDF (Reload/Scroll if blank)
GB/T 41155-2021: Sintered metal materials, excluding hardmetals -- Fatigue test pieces
GB/T 41155-2021
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 77.160
CCS H 21
GB/T 41155-2021 / ISO 3928:2016
Sintered metal materials, excluding hardmetals - Fatigue
test pieces
(ISO 3928:2016, IDT)
ISSUED ON: DECEMBER 31, 2021
IMPLEMENTED ON: JULY 01, 2022
Issued by: State Administration for Market Regulation;
Standardization Administration of PRC.
Table of Contents
Foreword ... 3
1 Scope ... 4
2 Normative references ... 4
3 Terms and definitions... 4
4 Pressed and sintered specimens for reverse bending and axial fatigue testing ... 4
5 Provisions on dies ... 5
6 Machined specimens ... 7
7 Identification of specimens ... 9
Appendix A (Informative) Supplementary instructions ... 10
References ... 11
Sintered metal materials, excluding hardmetals - Fatigue
test pieces
1 Scope
This document specifies the dimensions of the die cavity, which his used for the
preparation of fatigue specimens, by pressing and sintering, the dimensions of the
specimens, which are prepared using this die, the dimensions of the specimens, which
are machined by sintering and powder forging materials.
This document applies to all sintered metals and alloys (excluding hardmetals).
2 Normative references
There are no normative references in this document.
3 Terms and definitions
There are no terms and definitions, that need to be defined, in this document.
4 Pressed and sintered specimens for reverse bending and
axial fatigue testing
4.1 General
The specimens, which are prepared by pressing and sintering, can be further processed,
such as dimensional finishing, polishing or heat treatment. If these treatments are taken,
they shall be noted in the test report. In the metallographic examination of the specimen
section, there shall be no micro-cracks, which have a length exceeding 0.25 mm in the
test area. The pressing die shall be kept in good condition, to avoid burrs. The corners
of the test area of the sintered specimen shall be ground, to remove burrs generated
during the pressing process.
4.2 Requirements for unnotched specimens
The unnotched specimen is as shown in Figure 2a). Flatness and parallelism shall be
0.1 mm. Other dimensions are recommended values.
4.3 Requirements for notched specimens
Appendix A
(Informative)
Supplementary instructions
ISO 1099, ISO 1352, ISO 1143 defines general principles for metal fatigue test
specimens, which apply to the following sintered metals.
a) Sintered metals are characterized by porosity, which inevitably leads to stress
concentrations.
b) Pores reduce the actual cross-sectional area of the specimen to be tested, which
means that the theoretical stress value calculated according to the formula is
smaller than the actual stress value.
c) In most cases, sintered specimens with connected pores on the surface are more
sensitive to the environment than dense materials. Porous products are not only
affected by internal erosion, during fatigue testing, but also before testing;
therefore, such specimens need to be stored with more care than dense material
specimens.
d) The surface state of the specimen or powder metallurgy part will significantly
affect its fatigue performance, so in order to obtain suitable fatigue data from the
fatigue specimen, to evaluate the fatigue performance of the powder metallurgy
part, the surface state of the specimen and the part needs to be comparable.
e) Milling or turning will cause surface densification and residual compressive stress,
which will result in higher fatigue strength than that in the non-machined state
(the grinding operation is gentler). Therefore, the surface of the specimen shall be
machined, only if the critical parts of the powder metallurgy part are also
machined. However, since most powder metallurgy parts have non-machined
surfaces, the assessment of fatigue properties is best done, through the fatigue
data obtained from non-machined surfaces.
Share



