Product Description
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Steel Beam Guardrail
Guardrail is a kind of road crash barrier used for securing highway safety by preventing errant vehicles from sliding out of the roads and impacting the roadside buildings or other objects. So it is most commonly fixed on the side of the highways, dock areas, aisles, especially on curves and slopes for protection against run-off-road collisions.
There are mainly two specifications of steel guardrail: W-Beam guardrail and Thrie-Beam guardrail, They are manufactured from Q235B or Q345B grade steel in 2.5-4mm base metal thickness as supplied by China Steel Limited.All products are hot dipped galvanized or powder coated after fabrication to meet the requirements of Chinese National Standards,AASHTO M180 Standard, SANA Standard and etc.
W-beam guardrail is a kind of road crash barrier used for securing highway safety by preventing errant vehicles from sliding out of the roads and impacting the roadside buildings or other objects. So it is most commonly fixed on the side of the highways, dock areas, aisles, especially on curves and slopes for protection against run-off-road collisions.
Our W-beam guardrail product is formed in accordance with the latest highway safety barrier technology for making sure its high durability and maximum strength. It is made of high quality steel, which reduces the impact force caused by mobile equipment to the maximum extent. Meanwhile, the zinc coating or PVC coating perfectly combined to the W-beam guardrail keeps the products free of damages of corrosion and rust.
For the time being, W-beam guardrail is the most popular choice for making crash barrier systems. W-beam guardrails are cost-effective to prevent vehicular impact with roadside objects, and lessen the likelihood of vehicle overturning and casualties.
W-beam road guardrail crash barrier is formed in accordance with the latest highway safety barrier technology to make sure its high durability and maximum strength. Dachu road guardrail components are made of high quality steel (Q235, Q345, A36 etc.), which can effectively reduce the impact force caused by vehicles to the maximum extent.
To make things better, the zinc coating or PVC coating perfectly combined to the W-beam guardrail keeps the products free of damages of corrosion and rust.
Road Safety W-Beam Barrier can be easily inserted into the pre-installed insertion and extraction holes by means of the plug-in column, which serves as isolation and protection. At the same time, it cooperates with the guardrail on the outer side of the road, and is neat and uniform.
When the vehicle collides with it, the corrugated steel guardrail board has good crash worthiness and energy absorption, and it is not easy to be destroyed, and at the same time it can protect the vehicle and the passengers.
When the road maintenance or other reasons need to be connected, the groups of guardrail columns at the opening can be easily removed and removed to open the passage for the vehicle to pass.
Product Parameters
Material
Q355,S355, S355JR
Base metal nominal thickness
Class A: 2.67mm, Class B: 3.43mm or customized
Zinc coating thickness
Type I: 550g/m2, Type II: g/m2, or customized
Standards
AASHTO M180
Application
Highway, High grade roads.
Base Material
A572/Q345B/HA350/Q235B/A36/S355JR/S275JR
W-Beam
//////*308/310/311/312/315*2.5/2.6/2.67/2.7/2.75/2.76*2.8/3/4/5/10
Thrie-Beam
/////*506/508/510*2.76/2.8/3/4/4.5/5/10
Surface Treatment
Hot Dip Galvanized or Powder Coated
Galvanizing Thickness
300g/m2 (40µ), 550g/m2 (80µ) or 610g/m2 (85µ) or g/m2 (160µ) or g/m2 (170µ) or customized
Certificate
AASHTO, AS/NZS, EN, ISO, ISO, SGS, CE, BV
Feature
Great corrosion resistant, high intensity, long and durable, low cost, higher security, environmental protection, etc.
If you want to learn more, please visit our website Hot Dip Galvanized W-Beam Guardrail.
Other
Other special specification as per client's requirement or drawings.
Manufacturing Technique&Detail
Company Profile
Recommend Products
Packaging & Shipping
Focusing on the export business of transportation facilities, the company has rich packing and packing experience for container loading. Among them, the guardrail plate is packed with steel wire rope, the post is transported by pallet, and the spacer and other guardrail accessories are shipped in ton package. This assembly method ensures that the products arrive at the destination port and is convenient for loading and unloading.
1.The packing of guardrail adopts bundling method, which is convenient for loading and unloading. It can also keep the balance of containers and facilitate transportation.
2.The packing of guardrail post adopts the well shaped binding method, which has strong firmness and is easy to be loaded and unloaded by forklift.
3.We use ton bags or simple wooden cases for packing accessories of guardrail, which is convenient for loading and unloading, and installation after arrival.
Sea, land and air transportation is at your choice
Installation Instructions
Our Advantages
1,Professional manufacturers and suppliers of safety protection products;
2,The company has many years of export experience, the export share is about 50%;
3,According to customer requirements, design, research and development, customized products;
4,Provide one-to-one online installation guidance and 24-hour service hotline : + 86-635-;
FAQ
1.Q:Are you a factory or trading company?
A:We are factory which has been in this field for more than 10 years.
2.Q:Where is your factory located? How can I visit there?
A:Our factory is located in Liaocheng City, Shandong Province, China. All our clients, from home or abroad, are warmly welcome to visit us!
3.Q:How can I get some samples?
A: We are honored to offer you samples. Please send a sample inquiry and leave us your address, then we will send you more information about the samples for your reference.
4.Q:How does your factory do regarding quality control?
A:Quality is priority. All our staff members always attach great importance to quality controlling from the very beginning to the very end. Our factory has gained ISO and SGS authentication.
U.S. Department of Transportation
Federal Highway Administration
400 Seventh St., S.W.
Washington, D.C.
September 11,
In Reply Refer To: HSSD/B-162
Mr. Rick Mauer
Nucor Steel Marion Inc.
912 Cheney Avenue
Marion, Ohio
Dear Mr. Mauer:
In his letter of May 7, , Mr. Dallas James of Armorflex Ltd requested formal Federal Highway Administration (FHWA) acceptance of a new steel strong post (called the Nucor Steel Post) for use in a new 31 (787 mm) high Nucor Strong Post W-beam guardrail system with no blockouts in both roadside and median applications. He also requested formal FHWA acceptance of the Nucor Steel Posts as a substitute for other approved posts in the standard 27 (686 mm) high non-proprietary strong post W-beam guardrail systems with the use of an original plastic blockout. This request was limited to roadside applications only. To support his request, Mr. James also provided a copy of a Holmes Solutions Limited test report dated March , entitled 31 Inch Nucor Strong Post W-Beam Guardrail without Blockouts and a copy of a Holmes Solutions Limited test report dated March , entitled 27 Inch Nucor Strong Post W-Beam Guardrail with Plastic Blockouts. Mr. James also provided copies of the drawings, test videos, photos, raw data and analysis files and a copy of the correspondence with Mr. Nick Artimovich of my staff concerning the selected test matrix. He also asked us to address the letter of acceptance to you.
Requirements
Longitudinal barriers should meet the guidelines contained in the NCHRP Report 350, "Recommended Procedures for the Safety Performance Evaluation of Highway Features". FHWA Memorandum Action: Identifying Acceptable Highway Safety Features of July 25, provides further guidance on crash testing requirements of longitudinal barriers.
Product description
Nucor Strong Posts are hot rolled high tensile steel fabricated into a U cross section of approximately 2 (50.8 mm) deep and 3-1/2 (88.9 mm) wide. The total weight of the posts is 5 pounds (2.27 kg) per foot. A slot, 3/4 (19.1 mm) wide is located 1 (25.4 mm) down from the top of the posts in the middle of the cross section. The slot has a total length of 7 (178 mm). All posts are 78 ( mm) long and hot dip galvanized. Design details for the Nucor Strong Posts are shown in Enclosure 1.
When Nucor posts are used in a new 31 (787 mm) high Nucor Strong Post W-beam guardrail system, the blockouts are not used and round spacer washers are installed between the guardrail and the legs of the U posts. Round spacer washers are manufactured from 1/4 (6.35 mm) mild steel plate with an outside diameter of 3-1/2 (89 mm) and a centrally located hole of 1 (25.4 mm) in diameter. The washers have a hot dip galvanized finish. The washer is captured in place by the 5/8 x 3-1/2 (15.9 mm x 88.9 mm) post bolt and splice nut and is used to provide a backing surface for the guardrail to limit the possibility of the head of the post bolts from pulling though the guardrail. The use of the 1/4 (6.35 mm) washer is a change to the original design implemented after Test 3-10 was completed. Design details for the Nucor Strong Post W-beam guardrail system in both roadside and median applications are shown in Enclosure 1.
When Nucor posts are used with 27 (686 mm) high non-proprietary W-beam guardrail systems, they are used with the original plastic blockouts, 14 x 3-5/8 (355.6mm x 92.1 mm) which are used to space the guardrail 8 (203 mm) from the face of the U posts. The plastic blockouts are manufactured from a 50 percent blend of new and recycled HDPE (high density polyethylene). Design details for the Nucor Strong Posts as used with 27 (686 mm) high W-beam guardrail systems with blockouts are shown in Enclosure 1.
The rail elements in both applications are standard 12 gauge, BMT (base metal thickness), galvanized W-beam, conforming to AASHTO M180 Class A rail. Both guardrail systems use standard FBB01 5/8 x 1-1/2 (15.9mm x 38.1mm) galvanized splice bolt and nuts. In the 31 (787 mm) high W-beam guardrail systems without blockouts the W-beams are held to the posts using galvanized 5/8 x 3-1/2˝ (15.9 mm x 88.9 mm) bolts with standard FBB01 splice nuts. In the 27 (686 mm) high W-beam guardrail systems with blockouts the W-beams are held to the posts using galvanized 5/8 x 12 (15.9 mm x 304.8 mm) bolts with standard FBB01 splice nuts.
Test article installations
In all test article installations the posts were embedded in the AASHTO Designation: M147-65 () standard soil and spaced at 75 ( mm). Both ends of the installations were terminated with the anchorage detailed from a FLEAT terminal end. The impact heads from the terminal ends were not installed. For the median guardrail installation (test 3-10) the nuts were installed on the opposite face than that impacted by the test vehicle as per the AASHTO SBM04b.
Testing
The NCHRP Report 350 requires that in order for longitudinal barriers to meet test level 3
(TL-3) criteria they must successfully pass tests 3-10 and 3-11. Since Nucor Strong Posts are proposed to be used in a new 31 (787 mm) high Nucor Strong Post W-beam guardrail system without blockouts in both roadside and median applications and a substitute for other approved posts in the standard 27 (686 mm) high non-proprietary strong post W-beam systems with the use of plastic blockouts in roadside application, you decided to devise an optimal test program which could allow full crash testing of the product while avoiding the duplication of redundant tests. You also intended to test the above systems to the new rewrite of the NCHRP 350 while have them accepted also under the current NCHRP 350.
The resulting test program developed in the consultation with my office included the following tests to evaluate the performance of the new Nucor Strong Post W-beam guardrail system without blockouts in both median and roadside applications:
To evaluate the performance of Nucor Strong Posts in 27 (686 mm) high W-beam guardrail systems with blockouts in roadside applications you conducted the following test:
I agree that the selected program is optimal for a full-crash testing of Nucor Strong Posts with the above W-beam guardrail systems. Test 3-10 on the median barrier configuration of the new Nucor Strong Post W-beam guardrail system is considered to produce the greatest risk to the occupants safety as it is stiffer than the roadside configuration and has a similar potential for snagging. Further, while the proposed updates to the NCHRP 350 recommend the replacement of the 820C with a kg passenger car (C), test 3-10 using a 820C vehicle would produce higher occupant risk than the C vehicle. Also, I agree that the decision to complete Test 3-11 only on the roadside configuration of Nucor Strong Post W-beam guardrail system is justified as this system is structurally less stiff than the median barrier configuration. Using of the P truck (proposed in the updates to NCHRP 350) in this test as opposed to the currently used P truck is in line with the objective to test structural adequacy of the system.
Similarly, I agree that Test 3-11 which uses a P truck impacting the 27 (686 mm) high W-beam guardrail system in the roadside configuration is sufficient to evaluate the performance of this system. Conducting Test 3-10 would be redundant as the system is similar to the previously approved non-proprietary W-beam systems and is unlikely to cause any concerns in impacts with a small car.
According to the information you provided the test article performed successfully in the above tests. The system redirected impacting vehicles which did not penetrate, underride, or override the installations and remained upright during and after the collision period. There was only minor deformation of the occupant compartment. Occupant risk factors were within the limits specified in the NCHRP 350. Summaries of tests results are presented in Enclosure 2.
In the conducted tests no detached elements, fragments, or other debris showed potential for penetrating the occupant compartment, nor to present an undue hazard to other traffic. However, in test 3-10 one post was broken off at ground level with a large segment of the post coming to rest 6 m behind the barrier approximately 17 m downstream from the point of impact. Test videos show that the broken off part of the post was sliding at ground level before coming to rest and therefore the hazard to other traffic in median application on a level surrounding surface would be minimal. However, the described tendency of the posts to break off should be recognized and should be taken into account when selecting locations for installations. Also, this tendency may be more pronounced when the system is used in the frozen ground or when the surface is paved.
In summary we agree that Nucor Strong Post W-beam guardrail system without blockouts in both roadside and median applications as described above meet the appropriate evaluation criteria for the NCHRP 350 TL-3 devices. Also, the Nucor Strong Posts as described above can be used as a substitute for other approved W-beam posts in the standard 27 (686 mm) high non-proprietary strong post TL-3 W-beam systems with the use of plastic blockouts in the roadside configuration. They should not, however, be used as one-for-one replacements of W6 x 8.5 steel posts in repair/maintenance situations until further testing is conducted.
The above systems may be used at all appropriate locations on the National Highway System (NHS) when selected by the contracting authority, subject to the provisions of Title 23, Code of Federal Regulations, Section 635.411, as they pertain to proprietary products. Please note that this acceptance is only for the use of the posts in the barrier proper. They cannot be used in any of the guardrail terminals that require breakaway posts unless specifically tested for that application. Also, please note also that this acceptance is based on the reported crash performance of your posts and is not meant to address their installation, maintenance or repair characteristics. Your companys 31-inch (787 mm) high guardrail discussed above may be considered crashworthy under both the existing Report 350 guidelines and under the new guidelines when they are formally adopted, assuming that the test matrix currently being proposed by the researchers remains unchanged.
Standard provisions
Please note the following standard provisions that apply to the FHWA letters of acceptance:
cover their structural features, nor conformity with the Manual on Uniform Traffic Control Devices.
Sincerely yours,
George E. Rice
Acting Director, Office of Safety Design
Office of Safety
Enclosures
§ 635.411 Material or product selection.
(a) Federal funds shall not participate, directly or indirectly, in payment for any premium or royalty on any patented or proprietary material, specification, or process specifically set forth in the plans and specifications for a project, unless:
(1) Such patented or proprietary item is purchased or obtained through competitive bidding with equally suitable unpatented items; or
(2) The State transportation department certifies either that such patented or proprietary item is essential for synchronization with existing highway facilities, or that no equally suitable alternate exists; or
(3) Such patented or proprietary item is used for research or for a distinctive type of construction on relatively short sections of road for experimental purposes.
(b) When there is available for purchase more than one nonpatented, nonproprietary material, semifinished or finished article or product that will fulfill the requirements for an item of work of a project and these available materials or products are judged to be of satisfactory quality and equally acceptable on the basis of engineering analysis and the anticipated prices for the related item(s) of work are estimated to be approximately the same, the PS&E for the project shall either contain or include by reference the specifications for each such material or product that is considered acceptable for incorporation in the work. If the State transportation department wishes to substitute some other acceptable material or product for the material or product designated by the successful bidder or bid as the lowest alternate, and such substitution results in an increase in costs, there will not be Federal-aid participation in any increase in costs.
(c) A State transportation department may require a specific material or product when there are other acceptable materials and products, when such specific choice is approved by the Division Administrator as being in the public interest. When the Division Administrator's approval is not obtained, the item will be nonparticipating unless bidding procedures are used that establish the unit price of each acceptable alternative. In this case Federal-aid participation will be based on the lowest price so established.
(d) Appendix A sets forth the FHWA requirements regarding (1) the specification of alternative types of culvert pipes, and (2) the number and types of such alternatives which must be set forth in the specifications for various types of drainage installations.
(e) Reference in specifications and on plans to single trade name materials will not be approved on Federal-aid contracts.
(f) In the case of a design-build project, the following requirements apply: Federal funds shall not participate, directly or indirectly, in payment for any premium or royalty on any patented or proprietary material, specification, or process specifically set forth in the Request for Proposals document unless the conditions of paragraph (a) of this section are applicable.
[41 FR , Aug. 27, , as amended at 67 FR , Dec. 10, ]
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