|Place of Origin:||Shenyang|
|Minimum Order Quantity:||500 Tons|
|Packaging Details:||By clients requirement in 40'OT/ 40'HQ/ 40'GP/ 20'GP Containers.|
|Delivery Time:||Shipped in 30 days after payment|
|Payment Terms:||L/C, T/T, Western Union|
|Supply Ability:||50000tons per year|
|Dimensions:||00 SQM To 100000 SQM||Size:||As Customer's Require|
workshop steel structure q235,
veneer roof workshop steel structure,
Q235 steel frame workshop
Steel frame structure consists of beams and columns from welded H-shapede steel, hot rolled H-shaped steel. In this frames, the beam and column system takes the gravity load such as dead and live loads.
QHHK offers virtually any type of structural design required. Your building sqare footage, local cades and wind, rain, and seismic requirements will determine the type of structural system that will apply, Other considerations include interior space requirements where clear spans may or may not be required. Standard bay length are 6m, 7.5m, and 9m between main frames. A variety of endwalls designs are available depending upon specific building demands. Post and beam endwalls are standard optinal"rigid frame" endwall designs are also available when there may be a need to add to the building in the future or perhaps a need for a total opening such as an aircraft hangar door. Our staff of experienced professionals can be of great assistance in determining the right structure for your application.
we make it easy to purchase a quality pre-engineered steel building. QHHK's building specialists can assist in taking your initial concept and developing the structural design with accessories that best accommodates your needs.
One of many standard features offered on the majority of buildings by QHHK includes the overlapping of purlins at the main beam as opposed to the flush bolting method. this technique insures greater strength and structural support. And as you will see, every aspect of a QHHK steel building is designed to meet just the right combination of quality and economy.
We will use software to calculate the stability of the building frame system under live load, constant load, wind, snow, earthquake conditions a
Contact Person: Peter