Cable Tray perforated

CT15

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Cable Tray perforated

Name: Trayco
Address: Bedrijvenpark Coupure 5A, Oudenaarde, Oost-Vlaanderen, 9700, Belgium
Telephone: +32 (0)55 23 29 90

CT15

Connect with CT15-J + BN06-10
Coated finishing available on demand. RAL colour code to be confirmed on your order.

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Technical Data Sheet

Catalog

Technical info Assembly Load diagram Accessories and options

	SKU	Article code	Finishing	Dimension A	Usable surface (cm²)	Packaging
	10150	CT15-050-12-2PG	PG	50	6.53	2	Default
EAN 5415129001503 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Sendzimir galvanized (EN 10143) PG (pre-galvanized): Products made of Sendzimir (pre-galvanized) or continuous hot-dip galvanized steel sheet and coils are mostly used wherever limited chemical contamination is likely, for example, in of ces, industrial buildings, covered parking lots, etc. Characteristic of this steel type is that – prior to mechanical deformation – it is given a zinc coating by means of a continuous dipping process. This zinc coating is easily deformed. A cathodic action occurs on cut surfaces (up to 1.5mm) that protects against oxidation. First, the steel is chemical cleaned and roughened in order to achieve a good bond. After the dipping process, the surplus zinc is blown oﬀ and one obtains an extra passivating coat (an ultra-thin protective coat) to prevent oxidation of the zinc coating (white rust). The coating thickness is usually expressed in g/m2. The most deployed type of Sendzimir steel is Z 275 = 275g/m2 (weighed on both sides), this corresponds to 18-20 µm (micron). Sendzimir galvanized steel sourced from modern galvanizing lines has, in general, a uniform, shiny appearance. The previous, common ﬂ owery surface is scarcely seen these days. This eﬀect is obtained under the inﬂ uence of lead but has no eﬀ ect on the quality of the coating. The use of lead was banned due to the ever more stringent environmental standards.
	10151	CT15-100-12-2PG	PG	100	13.4	2	Default
EAN 5415129001510 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Sendzimir galvanized (EN 10143) PG (pre-galvanized): Products made of Sendzimir (pre-galvanized) or continuous hot-dip galvanized steel sheet and coils are mostly used wherever limited chemical contamination is likely, for example, in of ces, industrial buildings, covered parking lots, etc. Characteristic of this steel type is that – prior to mechanical deformation – it is given a zinc coating by means of a continuous dipping process. This zinc coating is easily deformed. A cathodic action occurs on cut surfaces (up to 1.5mm) that protects against oxidation. First, the steel is chemical cleaned and roughened in order to achieve a good bond. After the dipping process, the surplus zinc is blown oﬀ and one obtains an extra passivating coat (an ultra-thin protective coat) to prevent oxidation of the zinc coating (white rust). The coating thickness is usually expressed in g/m2. The most deployed type of Sendzimir steel is Z 275 = 275g/m2 (weighed on both sides), this corresponds to 18-20 µm (micron). Sendzimir galvanized steel sourced from modern galvanizing lines has, in general, a uniform, shiny appearance. The previous, common ﬂ owery surface is scarcely seen these days. This eﬀect is obtained under the inﬂ uence of lead but has no eﬀ ect on the quality of the coating. The use of lead was banned due to the ever more stringent environmental standards.
	10152	CT15-150-12-2PG	PG	150	20.28	2	Default
EAN 5415129001527 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Sendzimir galvanized (EN 10143) PG (pre-galvanized): Products made of Sendzimir (pre-galvanized) or continuous hot-dip galvanized steel sheet and coils are mostly used wherever limited chemical contamination is likely, for example, in of ces, industrial buildings, covered parking lots, etc. Characteristic of this steel type is that – prior to mechanical deformation – it is given a zinc coating by means of a continuous dipping process. This zinc coating is easily deformed. A cathodic action occurs on cut surfaces (up to 1.5mm) that protects against oxidation. First, the steel is chemical cleaned and roughened in order to achieve a good bond. After the dipping process, the surplus zinc is blown oﬀ and one obtains an extra passivating coat (an ultra-thin protective coat) to prevent oxidation of the zinc coating (white rust). The coating thickness is usually expressed in g/m2. The most deployed type of Sendzimir steel is Z 275 = 275g/m2 (weighed on both sides), this corresponds to 18-20 µm (micron). Sendzimir galvanized steel sourced from modern galvanizing lines has, in general, a uniform, shiny appearance. The previous, common ﬂ owery surface is scarcely seen these days. This eﬀect is obtained under the inﬂ uence of lead but has no eﬀ ect on the quality of the coating. The use of lead was banned due to the ever more stringent environmental standards.
	10153	CT15-200-12-2PG	PG	200	27.15	2	Default
EAN 5415129001534 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Sendzimir galvanized (EN 10143) PG (pre-galvanized): Products made of Sendzimir (pre-galvanized) or continuous hot-dip galvanized steel sheet and coils are mostly used wherever limited chemical contamination is likely, for example, in of ces, industrial buildings, covered parking lots, etc. Characteristic of this steel type is that – prior to mechanical deformation – it is given a zinc coating by means of a continuous dipping process. This zinc coating is easily deformed. A cathodic action occurs on cut surfaces (up to 1.5mm) that protects against oxidation. First, the steel is chemical cleaned and roughened in order to achieve a good bond. After the dipping process, the surplus zinc is blown oﬀ and one obtains an extra passivating coat (an ultra-thin protective coat) to prevent oxidation of the zinc coating (white rust). The coating thickness is usually expressed in g/m2. The most deployed type of Sendzimir steel is Z 275 = 275g/m2 (weighed on both sides), this corresponds to 18-20 µm (micron). Sendzimir galvanized steel sourced from modern galvanizing lines has, in general, a uniform, shiny appearance. The previous, common ﬂ owery surface is scarcely seen these days. This eﬀect is obtained under the inﬂ uence of lead but has no eﬀ ect on the quality of the coating. The use of lead was banned due to the ever more stringent environmental standards.
	10154	CT15-300-12-2PG	PG	300	40.9	2	Default
EAN 5415129001541 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Sendzimir galvanized (EN 10143) PG (pre-galvanized): Products made of Sendzimir (pre-galvanized) or continuous hot-dip galvanized steel sheet and coils are mostly used wherever limited chemical contamination is likely, for example, in of ces, industrial buildings, covered parking lots, etc. Characteristic of this steel type is that – prior to mechanical deformation – it is given a zinc coating by means of a continuous dipping process. This zinc coating is easily deformed. A cathodic action occurs on cut surfaces (up to 1.5mm) that protects against oxidation. First, the steel is chemical cleaned and roughened in order to achieve a good bond. After the dipping process, the surplus zinc is blown oﬀ and one obtains an extra passivating coat (an ultra-thin protective coat) to prevent oxidation of the zinc coating (white rust). The coating thickness is usually expressed in g/m2. The most deployed type of Sendzimir steel is Z 275 = 275g/m2 (weighed on both sides), this corresponds to 18-20 µm (micron). Sendzimir galvanized steel sourced from modern galvanizing lines has, in general, a uniform, shiny appearance. The previous, common ﬂ owery surface is scarcely seen these days. This eﬀect is obtained under the inﬂ uence of lead but has no eﬀ ect on the quality of the coating. The use of lead was banned due to the ever more stringent environmental standards.
	10469	CT15-050-12-2DG	DG	50	6.53	2
EAN 5415129004696 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Hot-dip galvanized (EN ISO 1461) DG (dipped-galvanised): Whenever cable support systems are exposed to the elements and/or caustic substances (such as petrochemical applications), they are given an additional treatment in the form of hot-dip galvanizing. Hot-dip galvanizing is a materials science process designed to render the steel non-corroding. If this coating is breached, the zinc will act as a sacrifcial anode, so that the iron is protected by the zinc (aka cathodic protection). During galvanization, three alloys are formed: an iron-zinc alloy, a zinc-iron alloy and also a zinc alloy. The pre-treatment of the steel is crucially important in order to achieve a good bond. The following process steps are involved: degreasing, rinsing, pickling, re-rinsing, ﬂ uxing, drying and hot-dipping. The coating thickness depends on the steel composition, the material thickness and the time spent in the zinc bath. In the galvanizing standard NEN-EN-ISO 1461, the minimum coating thickness are prescribed (as shown in following overview), just as the zinc shrinkage per year which will depend on environmental factors (see table entitled `Corrosion classes’). In addition, the zinc coating forms an excellent substrate for other post-treatments, such as applying a powder coating and coats of paint (better known as the duplex system). An added advantage of hot-dip galvanizing is that along the edges and pointy bits, where objects are usually extra susceptible to corrosion, the zinc coating is thicker because of the behaviour of the liquid. Minimum thicknesses of the zinc coating according to ISO 1461 - Using the hot-dip method Material thickness ≥ 6 mm = min. zinc coating thickness (average) 85µm Material thickness ≥ 3 mm to < 6 mm = min. zinc coating thickness (average) 70µm Material thickness ≥ 1,5 mm to < 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 1,5 mm = min. zinc coating thickness (average) 45µm - Using the drum method Material thickness ≥ 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 3 mm = min. zinc coating thickness (average) 45µm
	10470	CT15-100-12-2DG	DG	100	13.4	2
EAN 5415129004702 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Hot-dip galvanized (EN ISO 1461) DG (dipped-galvanised): Whenever cable support systems are exposed to the elements and/or caustic substances (such as petrochemical applications), they are given an additional treatment in the form of hot-dip galvanizing. Hot-dip galvanizing is a materials science process designed to render the steel non-corroding. If this coating is breached, the zinc will act as a sacrifcial anode, so that the iron is protected by the zinc (aka cathodic protection). During galvanization, three alloys are formed: an iron-zinc alloy, a zinc-iron alloy and also a zinc alloy. The pre-treatment of the steel is crucially important in order to achieve a good bond. The following process steps are involved: degreasing, rinsing, pickling, re-rinsing, ﬂ uxing, drying and hot-dipping. The coating thickness depends on the steel composition, the material thickness and the time spent in the zinc bath. In the galvanizing standard NEN-EN-ISO 1461, the minimum coating thickness are prescribed (as shown in following overview), just as the zinc shrinkage per year which will depend on environmental factors (see table entitled `Corrosion classes’). In addition, the zinc coating forms an excellent substrate for other post-treatments, such as applying a powder coating and coats of paint (better known as the duplex system). An added advantage of hot-dip galvanizing is that along the edges and pointy bits, where objects are usually extra susceptible to corrosion, the zinc coating is thicker because of the behaviour of the liquid. Minimum thicknesses of the zinc coating according to ISO 1461 - Using the hot-dip method Material thickness ≥ 6 mm = min. zinc coating thickness (average) 85µm Material thickness ≥ 3 mm to < 6 mm = min. zinc coating thickness (average) 70µm Material thickness ≥ 1,5 mm to < 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 1,5 mm = min. zinc coating thickness (average) 45µm - Using the drum method Material thickness ≥ 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 3 mm = min. zinc coating thickness (average) 45µm
	10471	CT15-150-12-2DG	DG	150	20.28	2
EAN 5415129004719 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Hot-dip galvanized (EN ISO 1461) DG (dipped-galvanised): Whenever cable support systems are exposed to the elements and/or caustic substances (such as petrochemical applications), they are given an additional treatment in the form of hot-dip galvanizing. Hot-dip galvanizing is a materials science process designed to render the steel non-corroding. If this coating is breached, the zinc will act as a sacrifcial anode, so that the iron is protected by the zinc (aka cathodic protection). During galvanization, three alloys are formed: an iron-zinc alloy, a zinc-iron alloy and also a zinc alloy. The pre-treatment of the steel is crucially important in order to achieve a good bond. The following process steps are involved: degreasing, rinsing, pickling, re-rinsing, ﬂ uxing, drying and hot-dipping. The coating thickness depends on the steel composition, the material thickness and the time spent in the zinc bath. In the galvanizing standard NEN-EN-ISO 1461, the minimum coating thickness are prescribed (as shown in following overview), just as the zinc shrinkage per year which will depend on environmental factors (see table entitled `Corrosion classes’). In addition, the zinc coating forms an excellent substrate for other post-treatments, such as applying a powder coating and coats of paint (better known as the duplex system). An added advantage of hot-dip galvanizing is that along the edges and pointy bits, where objects are usually extra susceptible to corrosion, the zinc coating is thicker because of the behaviour of the liquid. Minimum thicknesses of the zinc coating according to ISO 1461 - Using the hot-dip method Material thickness ≥ 6 mm = min. zinc coating thickness (average) 85µm Material thickness ≥ 3 mm to < 6 mm = min. zinc coating thickness (average) 70µm Material thickness ≥ 1,5 mm to < 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 1,5 mm = min. zinc coating thickness (average) 45µm - Using the drum method Material thickness ≥ 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 3 mm = min. zinc coating thickness (average) 45µm
	10472	CT15-200-12-2DG	DG	200	27.15	2
EAN 5415129004726 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Hot-dip galvanized (EN ISO 1461) DG (dipped-galvanised): Whenever cable support systems are exposed to the elements and/or caustic substances (such as petrochemical applications), they are given an additional treatment in the form of hot-dip galvanizing. Hot-dip galvanizing is a materials science process designed to render the steel non-corroding. If this coating is breached, the zinc will act as a sacrifcial anode, so that the iron is protected by the zinc (aka cathodic protection). During galvanization, three alloys are formed: an iron-zinc alloy, a zinc-iron alloy and also a zinc alloy. The pre-treatment of the steel is crucially important in order to achieve a good bond. The following process steps are involved: degreasing, rinsing, pickling, re-rinsing, ﬂ uxing, drying and hot-dipping. The coating thickness depends on the steel composition, the material thickness and the time spent in the zinc bath. In the galvanizing standard NEN-EN-ISO 1461, the minimum coating thickness are prescribed (as shown in following overview), just as the zinc shrinkage per year which will depend on environmental factors (see table entitled `Corrosion classes’). In addition, the zinc coating forms an excellent substrate for other post-treatments, such as applying a powder coating and coats of paint (better known as the duplex system). An added advantage of hot-dip galvanizing is that along the edges and pointy bits, where objects are usually extra susceptible to corrosion, the zinc coating is thicker because of the behaviour of the liquid. Minimum thicknesses of the zinc coating according to ISO 1461 - Using the hot-dip method Material thickness ≥ 6 mm = min. zinc coating thickness (average) 85µm Material thickness ≥ 3 mm to < 6 mm = min. zinc coating thickness (average) 70µm Material thickness ≥ 1,5 mm to < 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 1,5 mm = min. zinc coating thickness (average) 45µm - Using the drum method Material thickness ≥ 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 3 mm = min. zinc coating thickness (average) 45µm
	10473	CT15-300-12-2DG	DG	300	40.9	2
EAN 5415129004733 Assembly Workload Norm IEC61537 Safe workload - Max. torque - Load graph Additional information Product features Connect with CT15-J + BN06-10 Coated finishing available on demand. RAL colour code to be confirmed on your order. Equipotential connection IEC61537 EC declaration of conformity We declare that our products are in conformity with: - the rules of the essential requirements of the EC directive: 2014/35/EU (low voltage) - the applicable national standards and technical specifications: CEI IEC 61537 Technical documentation is available at the manufacturer location. (On condition that the products are used in the manner intended and/or in accordance with the current installation standards and/or with the recommendations of the manufacturer.) Finishing Hot-dip galvanized (EN ISO 1461) DG (dipped-galvanised): Whenever cable support systems are exposed to the elements and/or caustic substances (such as petrochemical applications), they are given an additional treatment in the form of hot-dip galvanizing. Hot-dip galvanizing is a materials science process designed to render the steel non-corroding. If this coating is breached, the zinc will act as a sacrifcial anode, so that the iron is protected by the zinc (aka cathodic protection). During galvanization, three alloys are formed: an iron-zinc alloy, a zinc-iron alloy and also a zinc alloy. The pre-treatment of the steel is crucially important in order to achieve a good bond. The following process steps are involved: degreasing, rinsing, pickling, re-rinsing, ﬂ uxing, drying and hot-dipping. The coating thickness depends on the steel composition, the material thickness and the time spent in the zinc bath. In the galvanizing standard NEN-EN-ISO 1461, the minimum coating thickness are prescribed (as shown in following overview), just as the zinc shrinkage per year which will depend on environmental factors (see table entitled `Corrosion classes’). In addition, the zinc coating forms an excellent substrate for other post-treatments, such as applying a powder coating and coats of paint (better known as the duplex system). An added advantage of hot-dip galvanizing is that along the edges and pointy bits, where objects are usually extra susceptible to corrosion, the zinc coating is thicker because of the behaviour of the liquid. Minimum thicknesses of the zinc coating according to ISO 1461 - Using the hot-dip method Material thickness ≥ 6 mm = min. zinc coating thickness (average) 85µm Material thickness ≥ 3 mm to < 6 mm = min. zinc coating thickness (average) 70µm Material thickness ≥ 1,5 mm to < 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 1,5 mm = min. zinc coating thickness (average) 45µm - Using the drum method Material thickness ≥ 3 mm = min. zinc coating thickness (average) 55µm Material thickness < 3 mm = min. zinc coating thickness (average) 45µm