Phong Nguyen Guangxi Steel Structure Co., Ltd.
gxfy168@126.com
+86-771-7668888
Home
Products
Variable Steel
C-shaped Steel
Z-shaped steel
Strip Steel
Steel, Profiles
Color Tile
Color Roll
Floor Deck
Sandwich Panel
Surrounding
Accessories
Pipe Rack
Lattice Column
Supporting System
Steel Component
About us
Company Profile
Corporate culture
Organization
Qualification honor
Office environment
Production equipment
Case
FY Performance
Light steel
Heavy steel
Multi-layer
Truss system
Grid construction
Municipal
News
Company News
Industry News
Industry knowledge
Latest supply
Recruitment
Contact
language
इंडिया
Việt Nam
ประเทศไทย
English
中文版
Малайская
FY STEEL STRUCTURE
New product
The Development History of Steel Structures
Although China achieved remarkable early accomplishments in iron‑based structures, the constraints of a feudal system lasting over two millennia stifled scientific progress, leaving iron‑built architecture at a relatively rudimentary level for an extended period. It was not until the late 19th century that modern steel structures began to be adopted in China. Following the founding of the People’s Republic of China, the application of steel structures expanded dramatically, surpassing previous levels both in quantity and quality. The floor system of light steel structures consists of cold‑formed thin‑walled steel framing or composite beams, OSB floor panels, as well as bracing and connection components. Commonly used materials include oriented strand board, cement‑fiberboard, and plywood. Such lightweight floors can typically support loads ranging from 316 to 365 kilograms per square meter.
05
2018
/
09
What are the components of a single-story steel‑structure factory building?
A single-story steel‑structure factory building is typically a spatial system composed of roof structures, columns, crane girders, brake beams (or brake trusses), various types of bracing, and wall frames. These components can be classified according to their functions as follows:
Migration: Modern Steel-Structure Architectural Design and Technical Expression
The key to the success of conceptualizing steel‑structure architectural design lies in the integration of technical ideas and their visual articulation. As the schematic design evolves, close collaboration is essential with structural engineers, MEP engineers, and even mechanical engineers. At this stage, technical expression becomes a natural outcome; whether it concerns spatial form, volumetric composition, or structural detailing, each element significantly shapes both the architectural design and its final presentation. The following discussion will explore these aspects in greater depth. Maintaining tight coordination with mechanical engineers is equally critical—only through such seamless teamwork can technical concepts be translated into a coherent and fluid architectural language. From spatial morphology and overall massing to the intricate details of connection nodes, every facet exerts a decisive influence on the design process and its ultimate realization. The ensuing sections will examine these issues from several perspectives.
Advantages of Steel Structures
Seismic Performance: The roofs of low‑rise villas are typically pitched, so the roof structure generally employs a triangular truss system made from cold‑formed steel members. After the structural panels and gypsum boards are installed, the lightweight steel components form a highly robust “panel‑rib structural system.” This system exhibits superior seismic resistance and greater capacity to withstand lateral loads, making it suitable for regions with seismic intensity of 8 degrees or higher.
Problems and Challenges in the Promotion of Steel-Structure Housing in China
We believe that the main problems and challenges in promoting steel‑structure housing in China can be summarized as follows:
