ANNEX II‘CE’ MARKING, INSCRIPTIONS, INSTRUCTIONS, DESIGN AND MANUFACTURE SCHEDULES, DEFINITIONS AND SYMBOLS

1.‘CE’ MARKING AND INSCRIPTIONS

1.1.‘CE’ marking

The ‘CE’ marking shall consist of the initials ‘CE’ in the following form:

Image_r00001

If the ‘CE’ marking is reduced or enlarged the proportions given in the graduated drawing set out in this point must be respected.

The various components of the ‘CE’ marking must have substantially the same vertical dimension, which may not be less than 5 mm.

1.2.Inscriptions

The vessel or data plate must bear at least the following information:

  1. (a)

    the maximum working pressure (PS in bar);

  2. (b)

    the maximum working temperature (Tmax in °C);

  3. (c)

    the minimum working temperature (Tmin in °C);

  4. (d)

    the capacity of the vessel (V in l);

  5. (e)

    the name or mark of the manufacturer;

  6. (f)

    the type and serial or batch identification of the vessel;

  7. (g)

    the last two digits of the year in which the ‘CE’ marking was affixed.

Where the data plate is used, it must be so designed that it cannot be reused and must include a vacant space to enable other information to be provided.

2.INSTRUCTIONS

The instructions must contain the following information:

  1. (a)

    the particulars given in point 1 except for the vessel’s serial identification;

  2. (b)

    the intended use of the vessel;

  3. (c)

    the maintenance and installation requirements for vessel safety.

They must be in the official language or languages of the country of destination.

3.DESIGN AND MANUFACTURING SCHEDULES

The design and manufacturing schedules must contain a description of the techniques and operations employed in order to meet the essential safety requirements set out in Annex I or the harmonised standards referred to in Article 5(1), and in particular:

  1. (a)

    a detailed manufacturing drawing of the vessel type;

  2. (b)

    the instructions;

  3. (c)

    a document describing:

    • the materials selected,

    • the welding processes selected,

    • the checks selected,

    • any pertinent details as to the vessel design.

When the procedures laid down in Articles 11 to 14 are applied, the schedule must also include:

  1. (a)

    the certificates relating to the suitable qualification of the welding operations and of the welders or operators;

  2. (b)

    the inspection slip for the materials used in the manufacture of parts and assemblies contributing to the strength of the pressure vessel;

  3. (c)

    a report on the examinations and tests performed or a description of the proposed checks.

4.DEFINITIONS AND SYMBOLS

4.1.Definitions

(a)

The design pressure ‘P’ is the gauge pressure chosen by the manufacturer and used to determine the thickness of the vessel’s pressurised parts.

(b)

The maximum working pressure ‘PS’ is the maximum gauge pressure which may be exerted under normal conditions of use of the vessel.

(c)

The minimum working temperature Tmin is the lowest stabilised temperature which the wall of the vessel may attain under normal conditions of use.

(d)

The maximum working temperature Tmax is the highest stabilised temperature which the wall of the vessel may attain under normal conditions of use.

(e)The yield strength ‘RET’ is the value at the maximum working temperature Tmax of:

  • the upper yield point ReH, for a material with both a lower and an upper yield point,

  • the proof stress Rp0,2, or

  • the proof stress Rp1,0 in the case of non-alloy aluminium.

(f)Families of vessels:

Vessels form part of the same family if they differ from the prototype only in diameter, provided that the permissible requirements referred to in points 2.1.1 and 2.1.2 of Annex I are complied with, and/or in the length of their cylindrical portion within the following limits:

  • where a prototype has one or more shell rings in addition to the ends, variants must have at least one shell ring,

  • where a prototype has just two dished ends, variants must have no shell rings.

Variations in length causing the apertures and/or penetrations to be modified must be shown in the drawing for each variant.

(g)

A batch of vessels consists at the most of 3 000 vessels of the model of the same type.

(h)

There is series manufacture within the meaning of this Directive if more than one vessel of the same type is manufactured during a given period by a continuous manufacturing process, in accordance with a common design and using the same manufacturing processes.

(i)

Inspection slip: document by which the producer certifies that the products delivered meet the requirements of the order and in which he sets out the results of the routine in-plant inspection test, in particular chemical composition and mechanical characteristics performed on products made by the same production process as the supply, but not necessarily on the products delivered.

4.2.Symbols

A

elongation after rupture Lo = 5,65Somath

%

A 80 mm

elongation after rupture (Lo = 80 mm)

%

KCV

rupture energy

J/cm2

P

design pressure

Bar

PS

maximum working pressure

Bar

Ph

hydrostatic or pneumatic test pressure

Bar

Rp0,2

proof stress at 0,2 %

N/mm2

RET

yield strength at maximum working temperature

N/mm2

ReH

upper yield point

N/mm2

Rm

tensile strength

N/mm2

Rm, max

maximum tensile strength

N/mm2

Rp1,0

proof stress at 1,0 %

N/mm2

Tmax

maximum working temperature

°C

Tmin

minimum working temperature

°C

V

capacity of the vessel

l