Tate Access Floor Panel, ConCore, 1000, HPL
Tate Access Floor Panel, ConCore, 1000, HPL panels are epoxy-coated solid panels filled with lightweight cement and rated for static design loads of 1000lbs. It fits bolted stringer understructures and is factory-laminated with a high-pressure laminate finish.
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Tate Access Floor Panel, ConCore, 1000, HPL panels are epoxy coated unitized shells consisting of a flat steel top sheet welded to a formed steel bottom pan filled with a highly controlled mixture of lightweight cement. Manufactured to exacting tolerances, these non-combustible, rigid, solid panels deliver ultimate strength, durability, and acoustic performance. ConCore panels are suitable for almost any application and are factory laminated with HPL. Tate's ConCore 1000 raised access floor panel is intended for commercial applications with a light total load requirement and engineered to meet Tate Standards per CISCA testing methods.
Key Performance Characteristics
- Panel weight: 7.5 lbs/ft² bare
- All steel welded construction
- Filled internally with a cementitious core material
- Protected from corrosion by an epoxy paint finish
- Class A flame spread rating
- Non-combustible material
Panel System Performance
Tate Standards to CISCA Testing Methods. System Performance Criteria (Tested on Actual Understructure*)
|System Type||System Weight (lbs/ft2)||Static Loads||Rolling Loads||Impact Loads|
|10 Passes||10,000 Passes|
|ConCore 1000||Posilock||8.0 lbs/ft2||1000 lbs||2000 lbs||PASS||800 lbs||600 lbs||150 lbs|
|Bolted Stringer||9.0 lbs/ft2||1000 lbs||2000 lbs||PASS||800 lbs||600 lbs||150 lbs|
*All tests are performed using CISCA's Recommended Test Procedures for Access Floors with the exception of Design Load
- System Design Load is based on a permanent set ≤ 0.010" and is verified by loading panels in accordance with the CISCA concentrated load method but with panels installed on actual understructure instead of steel blocks. (Testing on blocks does not represent the performance of an actual installation.) Ultimate, Rolling, and Impact Load tests are performed using CISCA Test Procedures.
- Safety Factor is Ultimate Load divided by Design Load.