GSO ISO 8210:2016
ISO 8210:1989
Gulf Standard
Current Edition
·
Approved on
22 December 2016
Equipment for harvesting -- Combine harvesters -- Test procedure
GSO ISO 8210:2016 Files
English
7 Pages
Current Edition
Reference Language
70.52 USD
GSO ISO 8210:2016 Scope
This International Standard specifies a test procedure for combine harvesters; it applies to all types of combine harvesters.
The test procedure specified in this International Standard deals with the measurement and testing of combine harvesters, either of self-propelled or trailed type, either directly cutting the crop or picking it up from a wind-row, for use in several crops. It indicates terminology and methods to be used for measuring important characteristics of combines. It includes both functional and capacity tests, i.e. those conducted over an extended period when ease of operation, ease of adjustment, rate of work and general operating characteristics may be assessed, and those carried out on specific occasions for the determination of grain loss and capacity characteristics.
Best Sellers From Mechanical Sector
GSO 42:2015
Gulf Technical Regulation
MOTOR VEHICLES - GENERAL REQUIREMENTS
GSO 159:1993
Gulf Technical Regulation
MOTOR VEHICLES –
DIMENSIONS AND WEIGHTS
GSO 98:1988
Gulf Technical Regulation
MOTOR VEHICLES- FLAMMABILITY OF
INTERIOR MATERIALS AND THEIR
TESTING METHODS
GSO 1780:2010
Gulf Technical Regulation
Motor vehicle-vehicle identification number (vin) - requirements
Recently Published from Mechanical Sector
GSO EN 13445-6:2024
EN 13445-6:2021
Gulf Standard
Unfired pressure vessels - Part 6: Requirements for the design and fabrication of pressure vessels and pressure parts constructed from spheroidal graphite cast iron
GSO ISO 11154:2024
ISO 11154:2023
Gulf Standard
Road vehicles — Roof load carriers
GSO ISO 10468:2024
ISO 10468:2023
Gulf Standard
Glass-reinforced thermosetting plastics (GRP) pipes
— Determination of the ring creep properties under wet or dry conditions
GSO ISO 10300-1:2024
ISO 10300-1:2023
Gulf Standard
Calculation of load capacity of bevel gears — Part 1: Introduction and general influence factors