ASTM A36 HEA HEB IPE H Beams I Beams for Building /H Shaped Steel Structure with (St37-2) (USt37-2) (RSt37-2) A570 Gr.A Grade

Short Description:

H beam channel steel is a type of steel with a cross-section shaped like the letter “H”; it is considered an economical structural steel profile. It is named after its “H” shape. Compared to I-beams, H-beams have wider flanges and thinner webs, resulting in superior cross-sectional performance, allowing them to withstand greater loads while using less steel material.

Standard: EN

Flange Thickness: 4.5-35mm

Flange Width: 100-1000mm

Length: 5.8m, 6m, 9m, 11.8m, 12m or as your requirement

Delivery Term: FOB CIF CFR EX-W

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PRODUCT PRODUCTION PROCESS

The production process for standard H-beams typically includes the following main steps:

Raw material preparation: The raw material for producing H-beams is usually steel billets. These billets need to be cleaned and heated to prepare them for subsequent processing and forming.

Hot rolling: The preheated billets are fed into a hot rolling mill for processing. In the hot rolling mill, the billets are rolled through multiple sets of rollers, gradually forming the characteristic H-shaped cross-section.

Cold working (optional): In some cases, to improve the precision and surface quality of the H-beams, the hot-rolled beams undergo cold working processes, such as cold rolling or drawing.

Cutting and finishing: After rolling and any cold working, the H-beams are cut and finished according to customer requirements to meet specific dimensions and length specifications.

Surface treatment: The H-beams are cleaned and treated to prevent rust, ensuring good surface quality and corrosion resistance.

Inspection and packaging: The finished H-beams are inspected for quality, including visual inspection, dimensional accuracy, and mechanical properties. After passing inspection, they are packaged and prepared for shipment to the customer.

PRODUCT SIZE

Designation		Unt Weight kg/m)	Standard Secional imension mm					Sectional Ama (cm²
Designation		W	H	B	1	2	r	A
HE28	AA	61.3	264.0	280.0	7.0	10.0	24.0	78.02
	A	76.4	270.0	280.0	80	13.0	24.0	97.26
	B	103	280.0	280.0	10.5	18.0	24.0	131.4
	M	189	310.0	288.0	18.5	33.0	24.0	240.2
HE300	AA	69.8	283.0	300.0	7.5	10.5	27.0	88.91
	A	88.3	200.0	300.0	85	14.0	27.0	112.5
	B	117	300.0	300.0	11.0	19.0	27.0	149.1
	M	238	340.0	310.0	21.0	39.0	27.0	303.1
HE320	AA	74.3	301.0	300.0	80	11.0	27.0	94.58
	A	97.7	310.0	300.0	9.0	15.5	27.0	124.4
	B	127	320.0	300.0	11.5	20.5	27.0	161.3
	M	245	359.0	309.0	21.0	40.0	27.0	312.0
HE340	AA	78.9	320.0	300.0	85	11.5	27.0	100.5
	A	105	330.0	300.0	9.5	16.5	27.0	133.5
	B	134	340.0	300.0	12.0	21.5	27.0	170.9
	M	248	377.0	309.0	21.0	40.0	27.0	315.8
HE360	AA	83.7	339.0	300.0	9.0	t2.0	27.0	106.6
	A	112	350.0	300.0	10.0	17.5	27.0	142.8
	B	142	360.0	300.0	12.5	22.5	27.0	180.6
	M	250	395.0	308.0	21.0	40.0	27.0	318.8
HE400	AA	92.4	3780	300.0	9.5	13.0	27.0	117.7
	A	125	390.0	300.0	11.0	19.0	27.0	159.0
	B	155	400.0	300.0	13.5	24.0	27.0	197.8
	M	256	4320	307.0	21.0	40.0	27.0	325.8
HE450	AA	99.8	425.0	300.0	10.0	13.5	27.0	127.1
	A	140	440.0	300.0	11.5	21.0	27.0	178.0
	B	171	450.0	300.0	14.0	26.0	27.0	218.0
	M	263	4780	307.0	21.0	40.0	27.0	335.4
Designatio		Unit Weight kg/m)	Standad Sectional Dimersion (mm)					Sectiona Area (cm²)
Designatio		W	H	B	1	2	r	A
HE50	AA	107	472.0	300.0	10.5	14.0	27.0	136.9
	A	155	490.0	300.0	t2.0	23.0	27.0	197.5
	B	187	500.0	300.0	14.5	28.0	27.0	238.6
	M	270	524.0	306.0	21.0	40.0	27.0	344.3
HE550	AA	t20	522.0	300.0	11.5	15.0	27.0	152.8
	A	166	540.0	300.0	t2.5	24.0	27.0	211.8
	B	199	550.0	300.0	15.0	29.0	27.0	254.1
	M	278	572.0	306.0	21.0	40.0	27.0	354.4
HE60	AA	t29	571.0	300.0	t2.0	15.5	27.0	164.1
	A	178	500.0	300.0	13.0	25.0	27.0	226.5
	B	212	600.0	300.0	15.5	30.0	27.0	270.0
	M	286	620.0	305.0	21.0	40.0	27.0	363.7
HE650	AA	138	620.0	300.0	t2.5	16.0	27.0	175.8
	A	190	640.0	300.0	t3.5	26.0	27.0	241.6
	B	225	660.0	300.0	16.0	31.0	27.0	286.3
	M	293	668.0	305.0	21.0	40.0	27.0	373.7
HE700	AA	150	670.0	300.0	13.0	17.0	27.0	190.9
	A	204	600.0	300.0	14.5	27.0	27.0	260.5
	B	241	700.0	300.0	17.0	32.0	27.0	306.4
	M	301	716.0	304.0	21.0	40.0	27.0	383.0
HE800	AA	172	770.0	300.0	14.0	18.0	30.0	218.5
	A	224	790.0	300.0	15.0	28.0	30.0	285.8
	B	262	800.0	300.0	17.5	33.0	30.0	334.2
	M	317	814.0	303.0	21.0	40.0	30.0	404.3
HE800	AA	198	870.0	300.0	15.0	20.0	30.0	252.2
	A	252	800.0	300.0	16.0	30.0	30.0	320.5
	B	291	900.0	300.0	18.5	35.0	30.0	371.3
	M	333	910.0	302.0	21.0	40.0	30.0	423.6
HEB1000	AA	222	970.0	300.0	16.0	21.0	30.0	282.2
	A	272	0.0	300.0	16.5	31.0	30.0	346.8
	B	314	1000.0	300.0	19.0	36.0	30.0	400.0
	M	349	1008	302.0	21.0	40.0	30.0	444.2

EN H-Shaped Steel

Grade: EN10034:1997 EN10163-3：2004

Specification:HEA HEB and HEM

Standard: EN

FEATURES

High strength: The cross-sectional shape of H-beams gives them high bending strength and load-bearing capacity, making them suitable for large-span structures and heavy-load applications.
Good stability: The cross-sectional design of H-beams ensures excellent stability under both compressive and tensile loads, contributing to the overall stability and safety of the structure.
Easy construction: The design of H-beams facilitates easy connection and installation during construction, improving project progress and efficiency.
High resource utilization: The design of H-beams allows for optimal use of steel properties, minimizing material waste and contributing to resource conservation and environmental protection.
Wide range of applications: H-beams are suitable for various building structures, bridges, and mechanical engineering applications, offering broad application potential.
In summary, standard H-beams possess high strength, good stability, and ease of construction, making them an important structural steel material widely used in various engineering fields.

PRODUCT INSPECTION

The inspection requirements for H-beams primarily include the following aspects:
Appearance quality: The appearance of the H-beam should comply with relevant standards and customer specifications, with a smooth and even surface, free from obvious dents, scratches, rust, or other defects.
Geometric dimensions: The length, width, height, web thickness, and flange thickness of the H-beam should comply with relevant standards and customer specifications.
Straightness: The straightness of the H-beam should comply with relevant standards and customer specifications, which can be verified by measuring whether the two ends of the beam are parallel or by using a straightness gauge.
Torsion: The torsion of the H-beam should comply with relevant standards and customer specifications, which can be verified by measuring whether the sides of the beam are perpendicular or by using a torsion gauge.
Weight tolerance: The weight of the H-beam should comply with relevant standards and customer specifications, and the weight tolerance can be verified by weighing.
Chemical composition: If the H-beam is to be welded or undergo other processing, its chemical composition should comply with relevant standards and customer specifications.
Mechanical properties: The mechanical properties of the H-beam should comply with relevant standards and customer specifications, including tensile strength, yield strength, elongation, etc.
Nondestructive testing: If nondestructive testing is required for the H-beam, it should be performed according to relevant standards and customer specifications to ensure its internal quality.
Packaging and marking: The packaging and marking of the H-beam should comply with relevant standards and customer specifications for easy transportation and storage.
In summary, when inspecting H-beams, all of the above requirements should be fully considered to ensure that the quality meets relevant standards and customer specifications, thus providing users with the highest quality H-beam products.

PRODUCT APPLICATION

External standard H-beams are widely used in the construction and engineering fields, including but not limited to the following aspects:
Structural engineering, bridge engineering, machinery manufacturing, shipbuilding, steel structure construction,

PACKAGING AND SHIPPING

The packaging and transportation of standard H-beams typically follow these steps:
Packaging: H-beams are usually packaged according to customer requirements to protect their surface from damage. Common packaging methods include bare packaging, wooden pallet packaging, and plastic wrapping. During packaging, care must be taken to ensure that the surface of the H-beams is free from scratches or corrosion.
Labeling: Product information, such as the model, specifications, and quantity, should be clearly marked on the packaging for easy identification and management.
Loading: During loading and transportation, the packaged H-beams must be handled carefully to prevent damage from impact or crushing.
Transportation: Select an appropriate means of transport, such as trucks or rail, and choose the most suitable method based on customer requirements and the distance to the destination.
Unloading: Upon arrival at the destination, the unloading process must be handled carefully to avoid damaging the H-beams.
Storage: Store the H-beams in a dry, well-ventilated warehouse to prevent moisture damage or other adverse effects.

COMPANY STRENGTH

FAQ

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3.Can I get samples before order ?
Yes, of course. Usually our samples are free,we can produce by your samples or technical drawings.

4.What is your payment terms?
Our usual payment term is 30% deposit, and rest against B/L. EXW, FOB,CFR, CIF.

5.Do you accept the third party inspection?
Yes absolutely we accept.

6.How do we trust your company?
We specialise in steel business for years as golden supplier, headquarter locates in Tianjin province, welcome to investigate in any ways, by all means.

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ASTM A36 H beam