NEN-EN-ISO 10426-2
Petroleum and natural gas industries - Cements and materials for well cementing - Part 2: Recommended practice for testing of well cement
inactive
| Organization: | NEN |
| Publication Date: | 1 October 1998 |
| Status: | inactive |
| Page Count: | 239 |
| ICS Code (Cement. Gypsum. Lime. Mortar): | 91.100.10 |
| ICS Code (Extraction and processing of petroleum and natural gas): | 75.020 |
scope:
This part of ISO 10426 specifies requirements and gives recommendations for the testing of cement slurries and related materials under simulated well conditions.
Document History
April 1, 2010
Petroleum and natural gas industries - Cements and materials for well cementing - Part 2: Testing of well cements
This part of ISO 10426 specifies methods and gives recommendations for the testing of cement slurries and related materials under simulated well conditions.
August 1, 2007
Petroleum and natural gas industries - Cements and materials for well cementing - Part 2: Testing of well cements
A description is not available for this item.
October 1, 2005
Petroleum and natural gas industries - Cements and materials for well cementing - Part 2: Testing of well cements - Amendment 1: Water-wetting capability testing
A description is not available for this item.
September 1, 2004
Petroleum and natural gas industries - Cements and materials for well cementing - Part 2: Testing of well cements
A description is not available for this item.
November 1, 2003
Petroleum and natural gas industries - Cements and materials for well cementing - Part 2: Testing of well cements
This part of ISO 10426 specifies requirements and gives recommendations for the testing of cement slurries and related materials under simulated well conditions.
NEN-EN-ISO 10426-2
October 1, 1998
Petroleum and natural gas industries - Cements and materials for well cementing - Part 2: Recommended practice for testing of well cement
This part of ISO 10426 specifies requirements and gives recommendations for the testing of cement slurries and related materials under simulated well conditions.