Q890F High Strength Structural Steel Plate

Strictly Compliant with GB/T 16270-2009 | Quenched & Tempered State | Thickness Up to 150mm | Excellent Low-Temperature Toughness (-60℃) | Custom Sizes Available

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Product Overview

Q890F is a high strength structural steel plate specified in GB/T 16270-2009 High strength structural steel plates in the quenched and tempered condition standard, replacing the old GB/T 16270-1996 version. The product is delivered in quenched + tempered state, with a maximum applicable thickness of 150mm (expanded from the original 100mm).

Q890F is smelted by oxygen converter or electric furnace, with strict control of chemical composition and carbon equivalent (CEV ≤0.55%), ensuring excellent high strength and superior low-temperature toughness (-60℃ impact resistance). It is widely used in engineering machinery, construction structures, port machinery, bridge engineering and other fields that require high load-bearing capacity and ultra-low-temperature stability (-60℃ working environment).

According to GB/T 16270-2009 Appendix A, Q890F has approximate equivalent grades in European standards, and is the preferred material for high-strength structural components working in ultra-low-temperature environments (-60℃) in domestic and international engineering projects.

★ Key Standard Update:

GB/T 16270-2009 cancels the bending performance requirement, adds CEV carbon equivalent index, and deletes the delivery states of normalizing, normalizing+tempering and controlled rolling. It also defines Q890F grade with -60℃ low-temperature impact requirement and Z-direction performance requirement for thickness ≥15mm.

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Technical Specifications (GB/T 16270-2009)

All data is in accordance with the official GB/T 16270-2009 standard, the unit of chemical composition is mass fraction (wt%), and the mechanical properties are tested with transverse tensile samples and longitudinal impact samples.

Chemical Composition (wt%, Max) & Carbon Equivalent CEV

Grade	Thickness mm	C	Si	Mn	P	S	Cu	Cr	Ni	Mo	B	V	Nb	Ti	CEV
Q890F	≤50	0.20	0.80	2.00	0.020	0.010	0.50	1.50	2.00	0.70	0.0050	0.12	0.06	0.05	0.72
	>50~100	0.20	0.80	2.00	0.020	0.010	0.50	1.50	2.00	0.70	0.0050	0.12	0.06	0.05	0.82
	>100~150	0.20	0.80	2.00	0.020	0.010	0.50	1.50	2.00	0.70	0.0050	0.12	0.06	0.05	-

Note 1: At least one grain refinement element (Nb/Ti/V/Al) shall be added, the minimum content of at least one element is 0.015% (Als for Al), or Alt can be used instead of Als with a minimum of 0.018%.
Note 2: CEV calculation formula (GB/T 16270-2009): CEV = C + Mn/6 + (Cr+Mo+V)/5 + (Ni+Cu)/15.
Note 3: The chemical composition tolerance of finished steel plate complies with GB/T 222.
Note 4: Q890F has strict P/S control (P≤0.015%, S≤0.005%) to ensure ultra-low-temperature toughness (-60℃) and structural stability.
Note 5: Q890F requires Z-direction performance test (Z15/Z25/Z35) for thickness ≥15mm to prevent lamellar tearing.

Mechanical Properties (GB/T 16270-2009)

Grade	Yield Strength ReH (MPa) ≥	Yield Strength ReH (MPa) ≥	Yield Strength ReH (MPa) ≥	Tensile Strength Rm (MPa)	Tensile Strength Rm (MPa)	Elongation after Fracture A (%)	Impact Absorption Energy KV2 (J)
Grade	≤50mm	>50~100mm	>100~150mm	≤50mm	>50~100mm	All Thickness	-60℃ (Longitudinal)
Q890F	890	830	-	940~1100	880~1100	11	27

Note 1: When the yield phenomenon is not obvious, Rp0.2 is used instead of ReH.
Note 2: The impact energy is the arithmetic mean of three samples, one sample is allowed to be lower than the specified value but not less than 70% of the specified value.
Note 3: For plates with thickness 8~12mm, 75% of the specified impact value is required for 10×7.5×55mm auxiliary samples; for 6~8mm, 50% for 10×5×55mm auxiliary samples; no impact test for <6mm.
Note 4: Smelting method: oxygen converter/electric furnace; delivery state: quenched + tempered.
Note 5: Q890F impact test temperature is -60℃ (KV2≥47J), reflecting excellent ultra-low-temperature toughness (GB/T 16270-2009 standard requirement).
Note 6: Q890F requires Z-direction performance test for thickness ≥15mm (Z15/Z25/Z35 grade optional) to ensure resistance to lamellar tearing.

International Standard Approximate Comparison

According to GB/T 16270-2009 Appendix A (informative appendix) and official international standard data, the approximate equivalent grades of Q890F are as follows:

Property	Q890F (GB/T 16270-2009) China \| Quenched & Tempered	S960QL (EN 10025-6:2004) EU \| Quenched & Tempered	ASTM A514 Gr.Q (ASTM A514) US \| Quenched & Tempered
Min Yield Strength (MPa)	890 (≤50mm)	960 (≤100mm)	690 (≤100mm)
Tensile Strength (MPa)	940~1100	1030~1180	760~895
Min Elongation (%)	12	10	15
Impact Test Temperature (°C)	-60℃ (KV2≥47J)	-40℃ (KV≥40J)	-40℃ (KV≥27J)
Max Carbon Content (%)	0.20	0.20	0.21
Carbon Equivalent CEV ≤	0.74~0.84 (by thickness)	0.55	0.50
Max Thickness (mm)	150	150	100
Main Applications	High-load engineering machinery, heavy structural components in ultra-low temperature regions (-60℃)	High-rise building structures, heavy crane components in cold regions	Ultra-high strength structural components in low-temperature environments

Note: The above is the approximate comparison of performance indicators, and the specific application shall be subject to the official standard of each country and the technical requirements of the project. CEHE Steel can provide products complying with Chinese, European and American standards according to customer requirements. Q890F is equivalent to S960QL in EN standard in terms of strength grade and has excellent ultra-low-temperature toughness (-60℃).

Application Cases

High Load Engineering Machinery

Heavy excavator arms, large crane booms, hydraulic support components and mining machinery in frigid regions. Q890F's ultra-high strength (yield ≥890MPa) and excellent -60℃ ultra-low-temperature toughness meet the extreme load requirements of heavy engineering machinery in ultra-cold environments.

Heavy Building Structures

Large-span bridge structural components, high-rise building core columns, large stadium steel structures and industrial factory heavy load-bearing beams in frigid regions. Q890F's high strength-to-weight ratio and -60℃ toughness reduce structural weight while ensuring safety in ultra-low-temperature environments.

Port Heavy Machinery

Large port cranes, ship unloaders, container gantry cranes and bulk cargo handling equipment in northern coastal areas. Q890F's ultra-high strength, wear resistance, structural stability and -60℃ toughness meet the long-term heavy-duty operation requirements in ultra-low-temperature port environments.

Frequently Asked Questions

What are the key updates of GB/T 16270-2009 compared to the old version? +

GB/T 16270-2009 has the following key updates: 1. Expanding the applicable thickness from 100mm to 150mm and deleting the steel strip specification; 2. Canceling Q420 grade and adding Q800/Q890/Q960 grades; 3. Adding quality grade C/F and adjusting composition and performance; 4. Canceling bending performance requirements and adding CEV carbon equivalent index; 5. Deleting delivery states such as normalizing and controlled rolling, and only retaining quenched + tempered state; 6. Adding Q890F grade with -60℃ ultra-low-temperature impact requirement and Z-direction performance requirement.

Why is Q890F suitable for ultra-low-temperature (-60℃) applications? +

Q890F is specially designed for ultra-low-temperature environments for the following reasons: 1. Strict control of impurity elements (P≤0.010%, S≤0.005%) to avoid cold brittleness; 2. CEV carbon equivalent ≤0.52% (for thickness ≤50mm) to ensure weldability and low-temperature toughness; 3. Mandatory -60℃ impact test (KV2≥47J) to verify ultra-low-temperature performance; 4. Addition of grain refinement elements (Nb/Ti/V/Al) to refine grains and improve low-temperature toughness; 5. Z-direction performance requirement (Z15/Z25/Z35) for thickness ≥15mm to prevent lamellar tearing in low-temperature welding.

What are the welding requirements for Q890F steel plates? +

Q890F welding key points: 1. Preheating temperature: 100~200℃ (adjust according to thickness, ≥50mm needs 150~200℃); 2. Interpass temperature ≤250℃ to avoid overheating affecting toughness; 3. Recommended welding materials: matching strength grade (yield ≥890MPa) low-hydrogen electrodes/wires (such as E12018-G, ER120S-G); 4. Post-weld heat treatment: stress relief annealing (580~620℃) is recommended for all thicknesses to reduce welding stress; 5. Welding process: use ultra-low heat input, multi-layer multi-pass welding to reduce welding stress and deformation.

What is the difference between Q890F and Q890C/Q890D/Q890E grades? +

The core difference lies in low-temperature impact requirements: 1. Q890C: 0℃ impact (KV2≥34J); 2. Q890D: -20℃ impact (KV2≥34J); 3. Q890E: -40℃ impact (KV2≥34J); 4. Q890F: -60℃ impact (KV2≥47J) (strictest). In addition, Q890F has stricter P/S control (P≤0.010%, S≤0.005%) than Q890E (P≤0.015%, S≤0.008%), and mandatory Z-direction performance requirement for thickness ≥15mm, making it suitable for ultra-low-temperature (-60℃) applications in arctic regions/polar engineering with high strength demands.

What are the customization capabilities of Q890F steel plates? +

CEHE Steel provides full customization for Q890F: 1. Size customization: thickness 6~100mm, width 1500~4000mm, length 3000~18000mm (can be cut to custom size); 2. Performance customization: Z-direction performance (Z15/Z25/Z35), impact energy upgrade (KV2≥50J), surface quality grade (A/B/C/D); 3. Processing customization: flame cutting, plasma cutting, beveling, shot blasting, painting, anti-rust oil coating; 4. Certification customization: provide mill test certificate (MTC) according to EN 10204 3.1/3.2, third-party inspection (SGS/BV/ABS) report; 5. Delivery cycle: customized production (20-30 days) (no regular stock due to high strength special grade).

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