Produktionsteknik

This part of ISO 8504 describes the general principles for the selection of methods for the preparation of steel surfaces before application of paints and related products. It also contains information on features that must be taken into account before certain surface preparation methods and preparation grades are selected and specified.

This document specifies a method for the determination of the surface abrasion resistance of anodic oxidation coatings produced by sulfuric acid anodizing of aluminium and its alloys. It is mainly intended for the evaluation of external architectural coatings. It is a production control method that relies to a large extent on operator experience and instruction.

This document, in addition to ISO 16092-1, specifies technical safety requirements and measures to be

adopted by persons undertaking the design, manufacture and supply of the following groups of

mechanical presses and mechanical press production systems.

Group 1: Presses with a part revolution clutch(es).

Group 2: Presses with a servo drive system. (Mechanical servo presses)

NOTE 1 Requirements in this document are essentially applicable to both groups of the mechanical press. If a

requirement applies to only one group then the group is specified.

The presses covered by this document range in size from small high-speed machines with a single

operator producing small workpieces to large relatively slow-speed machines with several operators and

large complex workpieces.

This document deals with all significant hazards relevant to mechanical presses and ancillary devices (for

example, moving die cushions, work-piece ejectors, feeding and transfer systems) which are integral to

the machine, when they are used as intended and under the conditions of misuse which are reasonably

foreseeable by the manufacturer (see Clause 4). All phases of the machine life cycle as described in ISO

12100:2010, 5.4 have been taken into consideration.

NOTE 2 All significant hazards means those identified or associated with presses at the time of the publication of

this document.

This document does not cover machines whose principal designed purpose is described in ISO 16092-

1:2017, 1 and machines which

a) transmit energy to impart press motion by using hydraulic or pneumatic means;

b) have two or more slides moving in different angular orientations from each other;

NOTE 3 This document applies to presses which have two or more slides moving in the same angular orientations,

for example, a press which has inner and outer slides.

c) utilize a linear motor mechanism(s).

This document, in addition to ISO 16092-1, specifies the technical safety requirements and measures to

be adopted by persons undertaking the design, manufacture and supply of pneumatic presses which are

intended to work cold metal or material partly of cold metal.

This document deals with all significant hazards relevant for pneumatic presses, when they are used as

intended and under the conditions of misuse which are reasonably foreseeable by the manufacturer (see

Clause 4). All the phases of the lifetime of the machinery as described in ISO 12100:2010, 5.4. have been

taken into consideration.

This part of ISO 16300 specifies a set of template definitions to describe the capability of software unit of an automation solution that can be mapped to the functional requirements of target manufacturing application.

This part of ISO 16300 also specifies how to develop and manage software unit catalogue in terms of capability properties, and defines mapping rules from capability profiles to software unit catalogue.

This part of ISO 20140 provides overview and general principles of a method for evaluating environmental performance including energy efficiency and other factors of a manufacturing system that influence the environment.

This part of ISO 20140 is applicable to manufacturing systems for discrete, batch, and continuous manufacturing. This part of ISO 20140 is applicable to an entire manufacturing system and to a part of the manufacturing system.

Life cycle assessment of products manufactured by the manufacturing system is outside the scope of ISO 20140.

This document specifies fundamental radiographic techniques with film which enable repeatable results to be obtained economically.

This document applies to the X-ray radiographic examination of heated tool, electrofusion, extrusion and hot gas joints in plastics materials.

It applies to joints in solid wall pipes and plates with a range of thicknesses from 5 mm to 100 mm. It only applies to pipes containing air or other gases at the time of X-ray testing.

This document does not specify acceptance levels of the indications.

This standard specifies evaluation standard of the composition, structure and properties of multi-layer hard coatings by common physical vapor deposition (PVD), indicating vacuum deposition method which produces material source by evaporation, sputtering, or related non-chemical ways.

This part of ISO 28927 specifies a laboratory method for measuring handtransmitted

vibration emission at the

handles of handheld,

powerdriven

saws, polishing and filing machines with reciprocating action and small

saws with oscillating or rotating action. It is a typetest

procedure for establishing the magnitude of vibration in

the gripping areas of a machine run under specified test conditions. It is intended that the results be used to

compare different models of the same type of machine.

This part of ISO 28927 is applicable to reciprocating files intended for surface finishing equipped with a file or

polishing tool, saws intended for parting sheets, plaster for medical use or wood, or equipped with a saw blade

for use on all kinds of materials, and small circular saws primarily intended for cutting metal or composite

materials (see Clause 5), whether driven pneumatically or by other means. It is not applicable to files that are

normally used with one hand on the file blade, nor to large circular saws intended for cutting wood.

NOTE To avoid confusion with the terms “power tool” and “inserted tool”, machine is used for the former throughout

this document.

This part of ISO 28927 specifies a laboratory method for measuring handtransmitted

vibration emission at the

handles of handheld,

powerdriven

saws, polishing and filing machines with reciprocating action and small

saws with oscillating or rotating action. It is a typetest

procedure for establishing the magnitude of vibration in

the gripping areas of a machine run under specified test conditions. It is intended that the results be used to

compare different models of the same type of machine.

This part of ISO 28927 is applicable to reciprocating files intended for surface finishing equipped with a file or

polishing tool, saws intended for parting sheets, plaster for medical use or wood, or equipped with a saw blade

for use on all kinds of materials, and small circular saws primarily intended for cutting metal or composite

materials (see Clause 5), whether driven pneumatically or by other means. It is not applicable to files that are

normally used with one hand on the file blade, nor to large circular saws intended for cutting wood.

NOTE To avoid confusion with the terms “power tool” and “inserted tool”, machine is used for the former throughout

this document.

This part of ISO 1711 specifies minimum values for Rockwell hardness and torsional strength for handoperated

wrenches and sockets.

It covers the following three series of torsion torques:

— Series A: usual box wrenches and socket wrenches;

EXAMPLE Reference nos. 1 1 02 01 0; 1 1 02 02 0 and 1 1 02 02 1; 1 1 02 03 0; 1 1 02 04 0; 1 1 02 05 0;

1 1 02 06 0; 1 1 02 09 0; 1 1 02 10 0; 1 1 02 11 0; 1 1 02 12 0; 1 1 02 13 0 and 1 1 02 13 1; 1 1 02 14 0; 1 1 02 15 0;

1 1 08 01 0; 1 1 08 02 0.

— Series C: open end wrenches;

EXAMPLE Reference nos. 1 1 01 01 0; 1 1 01 01 1; 1 1 01 02 0; 1 1 01 03 0; 1 1 01 04 0.

— Series E: hand-operated square drive sockets.

EXAMPLE Reference nos. 2 1 02 01 0 and 2 1 02 01 1.

NOTE The wrenches and sockets mentioned above are listed under their respective reference numbers in

ISO 1703.

This part of ISO 1711 specifies hardness and minimum torsional strength for machine-operated square

drive sockets in accordance with ISO 2725-2 intended for use with impact wrenches.

EXAMPLE Reference nos. 2 2 02 01 0; 2 2 02 02 0; 5 2 00 04 0.

NOTE The sockets mentioned above are listed under their respective reference numbers in ISO 1703.

This document specifies a method for using phase sensitive eddy current instruments for nondestructive

measurements of the thickness of non-magnetic metallic coatings on metallic and nonmetallic

basis materials such as:

1. zinc, cadmium, copper, tin or chromium on steel;

2. Copper or silver on composite materials.

The phase sensitive method can be applied without thickness errors to smaller surface areas and to

stronger surface curvatures than the amplitude sensitive eddy current method specified in ISO 2360,

and is less affected by the magnetic properties of the basis material. However, the phase sensitive

method is more affected by the electrical properties of the coating materials.

In this document the term “coating” is used for materials such as, for example, paints and varnishes,

electroplated coatings, enamel coatings, plastic coatings, claddings and powder coatings.

This method is particularly applicable to measurements of the thickness of metallic coatings. These

coatings can be non-magnetic metallic coatings on non-conductive, conductive or magnetic base

materials, but also magnetic coatings on non-conductive or conductive base materials.

When measuring metallic coatings on metallic basis material, the product of conductivity and

permeability (σ, ) of one of the materials should be at least a factor of 2 times the product of

conductivity and permeability for the other material. Non-ferromagnetic materials have a relative

permeability of 1.