• Color Coated Pre-Painted Steel Coil in Green Color System 1
  • Color Coated Pre-Painted Steel Coil in Green Color System 2
  • Color Coated Pre-Painted Steel Coil in Green Color System 3
Color Coated Pre-Painted Steel Coil in Green Color

Color Coated Pre-Painted Steel Coil in Green Color

Ref Price:
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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
50 m.t.
Supply Capability:
10000 m.t./month

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1:Pre-Painted Galvanized/Aluzinc Steel Coil Description

Pre-painted Galvanized/Aluzinc Steel Coil with GI or Aluzinc as base metal,after pretreatment,degrease , chemical treatment and liquid dope with several layers of color ,then after fring and cooling ,finally become pre-painted galvanized/aluzinc steel with good capable of decoration,molding,corrosion resistance,superior workability,durability and weather resistance.

2:Quick Details of the Pre-Painted Galvanized/Aluzinc Steel Coil

Standard

ASTM ,EN,JIS

Grade:

CS,DX51D+Z,CGCC

Thickness

0.16mm-1.5mm

Place of Origin

China(Mainland)

Brand Name

Type

Steel Coil

Technique

Galvanized/Aluzinc

Surface

Coated

Application

Roof panel

Width

900mm-1250mm

Length

Coils

Zinc Coating

30g/m2-275g/m2

Paint

Standard PE,PVDF,PU

Color

RAL Scale

Coil Weight

3mt-7mt

3:Packaging & Delivery

Packing: Export Standard Packing (full wrapped with anti-damped paper inside, iron sheet wrapped outside, and bundled by iron strips)

Delivery:30-45 Days

Detail Images:

Color Coated Pre-Painted Steel Coil in Green Color

Color Coated Pre-Painted Steel Coil in Green Color

Size can be customized 
Financial support with max 180 days unsance L/C 
Prime quanlity, competitive price 
Fast delivery time.

4:PPGI / GI Steel Sheet

1) AVAILABLE DESIGNATION OF PPGI/PPGL Prepainted Galvanized/Aluzinc Steel Coils

Quality

Q/BQB 440-2003

JIS G3312-1994

EN 10326-2004

ASTM A653-02a

EN 10327-2004

(BASE PLATE)

(BASE PLATE)

Commercial Steel

TDC51D

CGCC

DX51D+Z/AZ

CS Type A/B/C

Forming Steel

(TSt01,TSt02,TSt03)

CGCD1

FS Type A, Type B

Drawing

TDC52D /TDC53D

-

DX52D+Z/AZ

DDS TYPE A/C

Steel

DX53D+Z/AZ

Structural

TS280GD(TStE28)

CGC400

S280D+Z/AZ

SS275

Steel

TS350GD(TStE34)

CGC440

S350D+Z/AZ

SS340 Class1

2) OUR SPECIFICATION OFPPGI/PPGL (Prepainted Galvanized/Aluzinc Steel Coils) 

 

 

Thickness

Width

Length of plate

Inner diameter of coil

0.16-1.2mm 

800/914/1000/1200/1219/1250mm

1000-6000mm

508mm/610mm

 

Coated Mass OF PPGI/PPGL (Prepainted Galvanized/GalvalumeSteel Coils) :

 

Base plate

Available Coated Mass(g/m^2)

Galvanized Steel

80, 100, 120, 160, 180, 200, 275

Galvalume Steel

50, 70, 150 ect.

 

Available Painting OF PPGI/PPGL (Prepainted Galvanized/GalvalumeSteel Coils) :

 

Category of Painting

Item

Code

Polyester

PE

High-durability polyester

HDP

Silicon modified polyesters

SMP

Polyvinylidene fluoride

PVDF

Easy-Cleaning

Painting Thickness

Top side: 20+5microns;

Bottom side: 5~7microns.

Color System

Produce according to RAL Color System or as per buyer’s color sample.

Painting structure

Top surface

Bottom surface

Primer coating

No coating

1/0

Primer coating

Primer coating

1/1

Primer coating + Finish coating

No coating

2/0

Primer coating + Finish coating

Primer coating or single back coating

2/1

Primer coating + Finish coating

Primer coating + Finish back coating

2/2

Note: Protect film available

 

3) APPLICATION OF PPGI/PPGL (Prepainted Galvanized/GalvalumeSteel Coils) 

 

Construction

Outside

Workshop, agricultural warehouse, residential precast unit, corrugated roof, roller shutter door, rainwater drainage pipe, retailer booth

Inside

Door, doorcase, light steel roof structure, folding screen, elevator, stairway, vent gutter

Electrical appliance

Refrigerator, washer, switch cabinet, instrument cabinet, air conditioning, micro-wave oven, bread maker

Furniture

Central heating slice, lampshade, chifforobe, desk, bed, locker, bookshelf

Carrying trade

Exterior decoration of auto and train, clapboard, container, isolation lairage, isolation board

Others

Writing panel, garbage can, billboard, timekeeper, typewriter, instrument panel, weight sensor, photographic equipment

 

 

Q: That's my question, well that and:Steel Pick + Electric Guitar = Trashed Guitar?:D
That's not a question, it's a statement. And how would using any kind of pick trash a guitar? At worst it would harm a $5 set of strings, not the guitar.
Q: I have a steel plate 3' long x 2 wide x 3/16 thick. I have a 1/2 diameter hole with the center 3/4 from the end. Tensile strength is 38,000psi. A chain goes through the hole and is connected to a load. how does one determine how much tension the chain can have before it rips through the hole?
Your title asks for the working load, yet your problem asks for the failure load (ripping the plate). These are two different things, since there must be a factor of safety on the failure load to get to the working load. The factor of safety varies from code to code and depending on what the plate/chain is being used for. The failure load would be the net cross section of the plate (after subtracting out the hole) x the strength of the plate. In this case it would be (2 - .5)*3/16*38000psi=10,687.5 lbs You would also need to check the strength of the chain to make sure that it doesn't break before the plate.
Q: I have a set of Ben Hogan Apex Plus Forged Irons, how can i figure out if the shafts are steel or graphite?
Steel will look like polished steel. And Graphite or CF will be painted or clear over the black CF fibers. Basically - if it looks like steel it is. You could look up you clubs on google also. Many times the shafts have the material, stiffness and other info printed right on them.
Q: How are steel coils stored in warehouses?
Steel coils are typically stored in warehouses by stacking them horizontally on top of each other, often using specialized racks or shelves designed to support their weight. Coils are usually aligned in rows with adequate space between each stack to allow for easy access and movement of the coils. Additionally, some warehouses may use protective materials, such as wooden or plastic spacers, to prevent scratching or damage to the coils during storage.
Q: How are steel coils straightened?
Steel coils are straightened using a process called leveling. This involves passing the coils through a series of rollers that gradually flatten and align the steel, resulting in straightened coils.
Q: How are defects in steel coils detected and resolved?
Defects in steel coils are typically detected through various non-destructive testing methods such as visual inspection, ultrasonic testing, magnetic particle testing, and eddy current testing. Once a defect is identified, it is resolved through processes like grinding, polishing, welding, or cutting out and replacing the affected area. The specific resolution method depends on the type and severity of the defect, ensuring that the steel coils meet the required quality standards before further processing or usage.
Q: How do steel coil manufacturers ensure product quality?
Superior quality steel coils are produced by steel coil manufacturers who employ a rigorous quality control process and adhere to industry standards. Firstly, they carefully select trusted suppliers who provide high-quality raw materials. This guarantees that the base material used in manufacturing the coils is of exceptional quality. During the production process, manufacturers implement strict quality control measures. They utilize advanced technologies and machinery to closely monitor parameters like thickness, width, and weight of the coils. This ensures consistency and accuracy in the dimensions and specifications of the products. To guarantee the durability and strength of the steel coils, manufacturers subject them to various tests such as tensile strength testing, yield strength testing, and elongation testing. These tests determine the mechanical properties of the coils and ensure that they meet the required standards. In addition to these tests, manufacturers conduct thorough inspections of the coil surfaces to identify any defects or imperfections. They utilize techniques like visual inspection, ultrasonic testing, and magnetic particle inspection to detect any surface irregularities that may affect the quality of the product. Furthermore, steel coil manufacturers adhere to international quality standards such as ISO 9001. This ensures that their manufacturing processes are consistently meeting the required quality benchmarks. They also maintain regular communication and collaboration with customers to understand their specific requirements and incorporate any necessary changes to enhance product quality. Overall, steel coil manufacturers prioritize product quality through a combination of strict quality control measures, adherence to industry standards, and continuous improvement practices. This guarantees that the steel coils they produce are of the highest quality and exceed the expectations of their customers.
Q: What are the challenges in coil edge trimming for narrow strips?
There are several challenges in coil edge trimming for narrow strips. Firstly, one of the main challenges is maintaining accuracy and precision during the trimming process. Narrow strips require a high level of precision to ensure that the edges are trimmed evenly and smoothly. Any deviation from this precision can result in uneven edges or burrs, which can affect the overall quality of the strip. Secondly, there is the challenge of controlling the strip tension. Narrow strips are more prone to tension issues, as they have less surface area to distribute the tension evenly. This can lead to problems such as strip breakage or stretching, which can impact the final product's quality. Another challenge is avoiding material waste. Narrow strips often have a smaller margin for error, meaning that any mistakes in the trimming process can result in a significant amount of wasted material. Minimizing material waste is crucial for cost-effectiveness and sustainable manufacturing practices. Additionally, maintaining a high production rate can be challenging when working with narrow strips. The trimming equipment needs to be able to handle the high speed required for efficient production while still maintaining accuracy and precision. This requires the use of advanced machinery and technology to ensure smooth and efficient operations. Lastly, the handling and transportation of narrow strips can also pose challenges. Due to their small size, narrow strips are more susceptible to damage during handling and transportation. Proper care and handling techniques need to be implemented to prevent any potential damage, which could affect the quality of the final product. Overall, the challenges in coil edge trimming for narrow strips revolve around precision, tension control, material waste, production rate, and handling. Overcoming these challenges requires the use of advanced technology, skilled operators, and careful attention to detail throughout the entire process.
Q: What are the environmental and social impacts of mining, processing and using steel?
Without it, you would not have many of the things that you enjoy today. Just think, no cannons, unless they were made of bronze, but that requires mining as well. No computers, no cars, no skate boards, no tall buildings, no pots and pans, no bath tubs, no factories to build things that are made out of non-metallic materials. No stereos, no TVs, no eating utensils, just think, you would have to eat like the Japanese do with bowls and your fingers. In short, just about everything around you is some how made with steel. If you are against steel and feel that it's impact on the ecology of the world is to great, what would you be willing to give up? Your car, ipod, computer, stereo, bed-everything about it uses steel in 0one way or another. Your Cd's, DVDs, just what would you want to give up because, yuck, it was made with steel equipment, or to some extent, made from steel.
Q: How are steel coils tested for dimensional accuracy?
Steel coils are tested for dimensional accuracy through various methods such as measuring their width, length, thickness, and diameter using specialized tools like calipers, micrometers, or laser measurement systems. These measurements are compared against the specified tolerances provided by the manufacturer to ensure that the steel coils meet the required dimensional standards.

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