The vertical separator must be used to manage the inner space and set the proper space for each cable. Standard mounting every second pitch.
Symmetrical divisor roller
The vertical separator must be used to manage the inner space and set the proper space for each cable. Standard mounting every second pitch.
Separation system proposed by Brevetti Stendalto, allows the perfect separation and organisation of cables inside the chain, and allows the opening from both inner and outer radius even when the chian is already populated with cables. Many separators in different lengths allow infinite combinations.
Nylon separator for horizontal separator. This offers the option to horizontally divide the space with 2 more horizontal levels.
Nylon separator for horizontal separator. This offers the option to horizontally divide the space with 3 more horizontlal levels.
COM_STENDALTO_SP4452F.1
COM_STENDALTO_SP4453F.1
Horizontal symmetrical separatorors allow the division in levels. Available width are shown in the table.
X = 16 mm
h1 and h2 change with the type of vertical separators and type and quantity of horizontal separators. For their values refers to the picture of the relative vertical separator.
Horizontal symmetrical separators allow for multi-level separation on more levels. This separator can be supplied in lengths from 30mm up to 200mm with a width of 1 mm.
X = 0 mm
h1 and h2 change with the type of vertical separators and of the quantity of horizontal separators. For their values refers to the picture of the relative vertical separator.
Horizontal asymmetrical separatorors allow the division in levels. The asymmtrical shape allow to get 2mm nore or less respect the SO01. Different space measures are got by a different mounting way.
X = 16 mm
h1 and h2 change with the type of vertical and horizontal separators, along with the way they are mounted. For their values, refer to the picture of the vertical separator adding or subtracting 2 mm.
Nylon end bracket set TYPE 1 completes both chain ends and allow for fastening on outer radius, inner radius, and bulkhead without specifying mounting position.
Nylon end bracket set TYPE 2 completes both chian ends and allow for fastening on outer radius, inner radius and, and bulkhead: mounting position must be specified.
Steel end bracket set completes both chian ends and allow for fastening on outer radius and inner radius: mounting position must be specified. Stainless steel can be delivered on request.
Open guide channels must be used in all sliding applications. They must be installed on radius runway and are availabe in standard length of 2m. Ordering example for 4 meter channel: 4 sidewalls, 4(+1) joining and support sets and if present 4(+1) base profiles.
Guide channels with rollers must be used in all sliding applications on the opposite radius runway. Availabe in standard length of 2m. Ordering example for 4 meter channel: 4 sidewalls, 4 rollers sets, 4(+1) joining and support sets and if present 4(+1) base profiles.
Guide channels with polydur must be used in all sliding applications on the opposite radius runway. Availabe in standard length of 2m. Ordering example for 4 meter channel: 4 sidewalls, 4 polydur sets, 4(+1) joining and support sets and if present 4(+1) base profiles.
Guide channels with steel angle plate must be used in all sliding applications on the opposite radius runway. Availabe in standard length of 2m. Ordering example for 4 meter channel: 4 sidewalls, 4 angle plate sets, 4(+1) joining and support sets and if present 4(+1) base profiles .
For the correct functioning, the chain must lay on a flat surface. For this purpose ground channels have to be insalled on chain runway. Standard length from 100 mm to 2000mm, at multiple of 100mm. Upon request length up to 3000 mm can be delivered. In following fields please fill the requested sector length and the sector quantity needed.
Norms | Properties | Units | Dry | Conditioned |
---|---|---|---|---|
TERMICHE | ||||
DSC | Melting point (10° C/min.) | °C | ||
ASTM - D 696 | Coefficient of linear thermal expansion | X10-6 K-1 | ||
ASTM D 648 ISO 75 DIN 53461 |
Heat distortion temperature ISO 75 1.82 N/mm2 °C 210 DIN 53461 0.45 N/mm2 |
°C °C |
210 220 |
|
U. L. 94 | Flammability | H.B. | ||
IEC 695-2-1 | Incandescent wire Temperature °C 650 Thickness |
650 3 |
||
FLAMMABILITY | ||||
ASTM-D 257 | Volume resistivity | Ohm cm | 1015 | 1011 |
ASTM-D 257 | Surface resistivity | Ohm | 1013 | 1011 |
ASTM-D 149 | Dielectric strength | KV/mm | 22 | |
ASTM-D 150 | Dielectric constant (10 Hz) | - | 3.8 | 4.5 |
ASTM-D 150 | Dissipation factor (10Hz) | - | 0.02 | 0.09 |
PHYSICAL PROPERTIES |
||||
ASTM-D 792 | Density | g/cm3 | 1.38 | |
ASTM-D 570 | Water absorption at 23°C in water for 24 hours | % | 0.90 | |
MECHANICAL PROPERTIES | ||||
ASTM-D 638 ISO R/527 DIN 53455 |
Tensile yield stress Ultimate elongation |
N/mm2 % |
195 2.6 |
115 4 |
ASTM-D 638 ISO R/527 DIN 53457 |
Tensile modulus of elasticity | N/mm2 | 10600 | 6900 |
ASTM-D 790 ISO 178 DIN 53452 |
Flexural strength | N/mm2 | 310 | 190 |
ASTM-D 790 ISO 178 |
Flexural modulus | N/mm2 | 10500 | 6800 |
ASTM-D 256 | Unnotched Izod impact strength | J/m | 140 | 300 |
ISO 180/4C | Notched Izod impact strength | KJ/m2 | 110 | 125 |
ASTM-D 785 | Rockwell hardness | Scala R | 122 | 114 |
BRYLON 6 | BRYLON 6 | STEEL | ||
---|---|---|---|---|
Chemical agents | Concentration % | Amorphous | Crystal | |
Methyl acetate | 100 | RB3 | RB2 | RB |
Acetone | 100 | RB4 | RB | RB |
Acetic acid (aqueous solution) | 40 | AF | AF | AF |
Acetic acid (aqueous solution) | 10 | AF | AF | AF |
Acetic acid | AF | AF | AF | |
Citric acid | 10 | AD 15 | RD | AD |
Hydrochloric acid (aqueous solution) | 36 | S | S | S |
Hydrochloric acid (aqueous solution) | 10 | AF | AF | S |
Hydrochloric acid (aqueous solution) | 2 | AF | AD | S |
Chromic acid (aqueous solution) | 10 | AF | AF | AF |
Chromic acid (aqueous solution) | 1 | RD | RD | AF |
Hydrofluoric acid | 40 | AF | AF | S |
Formic acid (aqueous solution) | 85 S | S | AD | |
Formic acid (aqueous solution) | 40 S | AF | AF | AD |
Phosphoric acid (aqueous solution) | 10 | AF | AF | S |
Oleic acid | 100 | RB3 | RB3 | RD |
Sulphuric acid | 98 | S | S | S |
Sulphuric acid (aqueous solution) | 40 | AF | AF | S |
Sulphuric acid (aqueous solution) | 10 | AF | AF | S |
Sulphuric acid (aqueous solution) | 2 | AF | AD | S |
Tartaric acid (aqueous solution) | RD | RB | RD | |
Water | RB10 | RB9 | RD | |
Chlorine water | RD | RD | AD | |
Ethyl alcohol | 96 | RD17 | RB3 | RB |
Ammonia | 10 | RB11 | RB | AF |
Petrol | 100 | RB1 | RB | RB |
Bitumen | RD | RD | RB | |
Potassium carbonate | 100 | RB | RB | AF |
Sodium carbonate | 10 | RB10 | RB3 | AF |
Ammonium chloride (aqueous solution) | 10 | RB | RB | AF |
Calcium chloride (aqueous solution) | 20 | S | S | AF |
Calcium chloride (aqueous solution) | 10 | RB | RB | AF |
Sodium chloride | 10 | RB | RB | AF |
Formaldehyde (aqueous solution) | 30 | RD | RB | AD |
Fat | RB | RB | RB | |
Milk | RB | RB | RB | |
Mercury | RB | RB | RB | |
Oils | RB | RB | RB | |
Oil | RB | RB | RB | |
Paraffin oil | RB | RB | RB | |
Silicon oil | RB | RB | RB | |
Diesel oil | RB | RB | RB | |
Mineral oil | RB | RB | RB | |
Ozone | AF | AF | AF | |
Oil | RB | RB | RB | |
Potassium hydroxide (aqueous solution) | 10 | RB9 | RB3 | S |
Sodium hydroxide (aqueous solution) | 50 | RD | RD | S |
Sodium hydroxide (aqueous solution) | 10 | RB5 | RB | S |
Sodium hydroxide (aqueous solution) | 5 | RB9 | RB | S |
Aluminium sulphate | 10 | RB | RB | AF |
Soap (aqueous solution) | RB | RB | RB | |
Tincture of iodine | AF | AF | AD | |
Trichloroethylene | RD5 | RD4 | RB | |
Vaseline | RB | RB | RB |
Legend
The table shows the resistance to chemical agents of BRYLON 6 and Steel. The number by resistance value side shows which is the % weight increase due to swelling.
RB - Very good resistance.
RD - Good resistance.
AD - Limited resistance.
AF - Poor resistance.
S - Soluble.
Amorphous - Polymer in amorphous state.
Crystal - Polymer in crystalline state.
Temperature range: -30°C + 125°C