La Ross and Son Construction delivers reinforced concrete solutions engineered for maximum strength, durability, and performance. Our structural expertise and advanced reinforcement systems create concrete that exceeds design requirements throughout the Dallas Fort Worth Metroplex.
Steel Rebar Systems – Traditional & high-strength steel reinforcement
Fiber Reinforcement – Synthetic & steel fiber concrete additives
Post-Tension Systems – Pre-stressed cable reinforcement
Mesh Reinforcement – Welded wire fabric & expanded metal
Composite Reinforcement – FRP & carbon fiber systems
Hybrid Systems – Combined reinforcement approaches
Building Foundations – Multi-story & high-rise structures
Retaining Walls – Earth retention & slope stabilization
Bridge Structures – Transportation infrastructure projects
Industrial Floors – Heavy equipment & machinery support
Parking Structures – Multi-level vehicle support systems
Water Treatment – Tanks, basins & containment structures
✓ Superior Strength – Enhanced load-bearing capacity
✓ Crack Resistance – Controlled cracking & durability
✓ Seismic Performance – Earthquake-resistant construction
✓ Long-Term Durability – 50+ year service life
✓ Design Flexibility – Complex shapes & configurations
✓ Cost Efficiency – Optimized material usage
Structural Analysis – Engineering review & optimization
Rebar Detailing – Shop drawings & placement plans
Installation Supervision – Quality control & verification
Testing & Inspection – Comprehensive quality assurance
Repair & Retrofit – Existing structure reinforcement
Seismic Upgrades – Earthquake resistance improvements
Material Certification – Mill test reports & quality verification
Placement Inspection – Positioning & spacing verification
Lap Length Verification – Connection adequacy confirmation
Cover Measurement – Corrosion protection assurance
Tie Installation – Proper restraint & anchorage
Pre-Pour Inspection – Complete system verification
Structural Engineers – Direct coordination with design professionals
Architect Coordination – Integration with building design
Code Compliance – ACI, IBC & local standard adherence
Load Analysis – Verification of capacity requirements
Detail Review – Construction drawing accuracy
Field Engineering – Real-time technical support
Manufacturing Facilities – Equipment foundations & heavy floors
Warehouse Structures – High-capacity storage systems
Transportation Infrastructure – Bridges, tunnels & roadways
Water Infrastructure – Treatment plants & distribution systems
Energy Facilities – Power plants & utility structures
Government Buildings – Critical infrastructure projects
Tensile Strength – Reinforcement capacity verification
Bond Testing – Concrete-to-steel adhesion confirmation
Corrosion Resistance – Long-term durability assessment
Load Testing – Structural performance verification
Fatigue Analysis – Cyclic loading resistance
Deflection Monitoring – Serviceability confirmation
Routine Assessments – Periodic condition evaluation
Corrosion Monitoring – Reinforcement protection verification
Structural Health – Performance monitoring systems
Repair Planning – Preventive maintenance strategies
Upgrade Recommendations – Capacity enhancement options
Website: larossandson.com
Facebook: facebook.com/larossandson
Phone: Structural concrete specialists
We enjoy working on residential and home improvement projects. Our goal is always to deliver effective, high-quality solutions for everyone who needs our services. Let us help you design your outdoor space exactly as you envision and save money on building costs.
Get the peace of mind knowing that you will have trusted and high-quality professionals submitting estimates for concrete contractors in Dallas-Fort Worth and Louisiana.
If you are still convinced that concrete slabs are right for you, then you must know the three primary grades of concrete. The grading of concrete is based on the strength measured in pounds per square inch (psi). Grades are determined by the cement, water and aggregate mixture. The three concrete grades are:
This grade is the lowest strength of concrete used to make concrete slabs.
This is the most common grade of concrete used to build concrete slabs. High-Strength Concrete: This type of concrete is used in applications that must support a heavy structure.
One the key advantages of using concrete is its large selection. There are many different subtypes of concrete. These subtypes are based upon the aggregate used in the mix of cement, sand and water.
The strength of this type of concrete ranges from 1,400 psi to 5,800 psi. This mixture consists of Portland cement, water and sand (sand is the aggregate). Self-Consolidating Concrete: This concrete is growing in popularity and currently accounts for over 75% of precast concrete sales in the U.S. It does not require compaction and can save more than 50% on labor costs. It is used in the creation of industrial concrete slabs and other construction projects.
This is regular-strength concrete that has floor hardeners and pigments impregnated on the surface. Stampers create a pattern on the surface to make the slab resemble stone, brick or other materials. Pervious Concrete: This is concrete without sand. Instead, only larger aggregates are used. This allows water to flow through the concrete slab and into the ground. It is ideal for concrete slabs to be placed in areas with high humidity and heavy amounts of precipitation.
Polymers added to the concrete mix allow for hardening within four hours to strengths of up to 5,000 psi. Geopolymer Concrete: Slabs made of this type of concrete feature a binder that is made of industrial waste including fly ash, slurry and slag. This type of concrete slab offers a high resistance to chemicals and heat. Asphalt Concrete: A bituminous binder is used in place of the Portland cement to hold together the aggregates.
Its strength is greater than 5,800 psi. To make this form of concrete, the water to cement ratio is less than .35. Sand is used as the aggregate and silica fume is added for additional strength. High-Performance Concrete: This is high-strength concrete with additional chemicals added for wear resistance and durability. The unique feature of this concrete is its fast curing time, which allows the concrete slab to be used as soon as possible.
This concrete is high-strength and has steel fibers added to the mix. The steel fibers add to the durability and strength of the finished slab. A concrete slab made of this type of concrete exhibits high resistance to wind, water and chemicals along with high ductility and high-energy absorption. It is ideal for making a concrete slab in earthquake-prone areas. Rapid-Strength Concrete: This form of concrete achieves its full strength within a few hours of being poured. This allows the concrete slab to be used within a day of its creation. Dependable, affordable concrete paving, parking lots, driveways, foundations, patios. Experienced Contractors. Reasonable Rates. In Business Since 2014. Fully
Licensed Company. Get Free Estimates. Highlights: Serving Since 2014, Offering Quality Service
Specializing in Residential & Commercial Projects. Highly Skilled Dependable, affordable concrete contractor. Competitive Rates. Great Workmanship. Request A Free Estimate.
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