Our Process
No Shortcuts.
No Exceptions.
Every Vision Grounds installation follows the same commitment
to base engineering — whether it’s a driveway, patio, or front entrance.
What changes is the depth. What never changes is the standard.
01
Phase One
Project Readiness Consultation
Before any proposal is written, before any materials are selected, before a project moves forward — we walk the site. Not with a sales script. With a genuine interest in understanding what the project actually requires.
A Project Readiness Consultation covers the physical conditions of your site: grade, drainage direction, soil type, proximity to structures, access for equipment, and any existing hardscape that needs to be removed or worked around. These aren’t details that can be assessed from a photo or a phone call.
We assess drainage carefully because water management is the single most important factor in long-term paver performance. A project sited incorrectly — where water runs toward a foundation or pools in the middle of a surface — is a problem that no base system can fully compensate for. We identify these issues in the consultation and plan around them.
The consultation also establishes honest expectations for timeline and investment range. We tell you what your project is likely to cost before you’ve decided anything — because informed clients make better decisions, and better decisions lead to projects we’re both proud of.
- On-site walk with Vision Grounds project lead
- Drainage and grade assessment
- Soil and access evaluation
- Scope clarity and timeline discussion
- Investment range — no surprises later
- No pressure, no obligation
02
Phase two
Design & Material Selection
Vision Grounds installs exclusively Unilock concrete pavers. This isn’t a limitation — it’s a choice based on material consistency, manufacturing quality, and the depth of the product catalog. The Unilock system produces pavers with tight dimensional tolerances, which makes tight, stable joints possible. Inconsistent paver dimensions are a common cause of installation failure that never gets mentioned.
Pattern selection matters both aesthetically and structurally. A herringbone pattern interlocks in a way that distributes load across multiple pavers — which is why it’s specified for driveways and other high-traffic surfaces that carry vehicles. A running bond pattern is structurally appropriate for pedestrian areas such as patios, walkways, and entries, and reads cleanly in most architectural contexts. We guide these decisions based on the application, not just preference.
Color and texture selection is done with your home’s existing materials in mind. Roof color, exterior trim, existing hardscape, landscaping — all of these inform what will look resolved and appropriate versus what will look like an afterthought. We bring samples to the site for review in natural light.
- Full Unilock product catalog review
- Pattern selection based on application and load requirements
- Herringbone for driveways and high-traffic surfaces — structurally specified, not decorative preference
- Color and texture matching to existing architecture
- On-site sample review in natural light
- Border and accent options
- Final material specification for your approval
03
Phase Three
Base Preparation
This is where the project is made or broken. If a paver installation fails within three to five years — settling, heaving, cracking, joint erosion — the cause is almost always the base. Not the pavers. Not the contractor’s installation technique. The base.
The correct base depth and composition depend on what the surface is designed to carry. A driveway bearing vehicle loads requires a fundamentally different base system than a patio or walkway used only by people on foot. We build each accordingly.
Driveways — 12-Inch System
Driveways receive a 12-inch full excavation. This depth is required to handle both vehicle weight and the behavior of Texas expansive clay soil, which swells when wet and contracts in dry heat. A shallow base in clay soil moves — and when the base moves, so do the pavers above it.
At the excavation floor, we install a geotextile fabric. This permeable barrier allows water to drain downward while preventing fine clay particles from migrating up into the base aggregate over time. That migration — slow and invisible — is one of the most common failure modes in installations without fabric, and it’s essentially irreversible once it has occurred.
Directly above the geotextile fabric, we install a layer of Tensar H-Series™ HX145 Geogrid before placing any aggregate. The geogrid is a structural reinforcement layer designed for exactly this condition: expansive soil beneath a vehicle-loaded surface. When open-grade aggregate is placed above it, the angular stone interlocks with the geogrid’s apertures, creating what engineers call a Mechanically Stabilized Layer — or MSL. This MSL distributes vehicle load laterally across a much wider area, reducing the point pressures that cause rutting and differential settlement in clay soils.
The HX145 is engineered with a multi-aperture geometry — hexagonal, trapezoidal, and triangular openings — that creates superior confinement of the aggregate above it compared to a simple grid structure. This is a geotechnical specification common in commercial and civil road construction. It is not commonly used by residential paver contractors in Central Texas.
Above the geogrid, we build an open-grade angular stone base. Unlike compacted gravel — which creates a semi-impermeable layer that can hold water beneath the surface — open-grade stone drains freely downward. This drainage eliminates the hydrostatic pressure and soil saturation that destabilize bases in heavy rain events.
- 12-inch excavation — required for vehicle load and clay soil conditions
- Geotextile fabric at excavation floor — prevents clay migration into base aggregate
- Tensar HX145 Geogrid — creates a Mechanically Stabilized Layer that distributes vehicle load
- Open-grade angular stone base built above the geogrid — drains freely
- Zero compacted gravel — no water retention beneath the surface
Patios, Walkways & Entries — 4 to 6-Inch System
Pedestrian-use surfaces — patios, walkways, front entries — are excavated to 4 to 6 inches. This is the correct and sufficient depth for surfaces that do not carry vehicle loads. A deeper excavation is not necessary and does not improve performance for these applications.
Geotextile fabric is installed at the excavation floor on every pedestrian project, for the same reason as in driveways: it prevents clay migration into the base and keeps the aggregate layer clean and stable over time. An open-grade angular stone base is built above the fabric. While the system is shallower than a driveway, the quality of materials and the attention to drainage engineering are identical.
- 4 to 6-inch excavation — correct depth for pedestrian-load surfaces
- Geotextile fabric at excavation floor — same protection as driveways
- Open-grade angular stone base — drains freely, no water retention
- Graded for positive drainage away from structures
- Same drainage engineering standard as vehicle applications
Structural Edge Restraint: The Detail That Keeps Everything in Place
Most contractors use plastic spike-down edge restraints along the perimeter of a paver installation. These restraints are common, inexpensive, and adequate for the short term. Over years of seasonal soil movement and temperature cycling, they often fail — allowing the outermost pavers to creep outward and the pattern to open up from the edges inward.
Vision Grounds sets paver borders on a poured concrete beam reinforced with both rebar and fiberglass. This concrete-anchored perimeter is structurally fixed to the ground, not pinned to the surface. It virtually eliminates the cracking and outward shifting that eventually compromises the pattern integrity of most installations. Once the borders are locked in concrete, the entire field of pavers has a rigid frame to press against.
This is done on every project — driveways, patios, walkways, and entries — regardless of project size.
04
Phase four
Installation & Final Walkthrough
With the base built correctly, paver installation is precise, methodical work. We lay pavers from a fixed starting point — typically a straight edge like a structure wall or curb — and work outward to maintain pattern alignment across the full surface.
Cut work at edges and borders requires precision cutting with wet saws to maintain the tight joint spacing and clean lines that characterize a quality installation. Rough or oversized cuts at edges are a common sign of rushed work that also creates long-term problems with joint integrity.
After the field and borders are set, we apply polymeric jointing sand — a sand product with a binding agent that cures to resist ant colonies, weed germination, and joint erosion from rain runoff. The installation ends with a final plate compaction to seat the pavers in the bedding sand and activate the jointing compound.
The final walkthrough is not a formality. We walk the entire installation with you, explain everything that was done and why, and go over any maintenance or care considerations. We want you to understand what was built and feel confident about what you’re receiving.
- Pattern layout from fixed reference point
- Precision wet-saw cutting for all edges and borders
- Polymeric jointing sand — ant and weed resistant
- Final plate compaction for paver seating
- Full site cleanup and debris removal
- Walkthrough with project lead — every detail explained
Why it matters
How our base systems
compare to industry standard
Base system decisions — depth, materials, reinforcement, edge treatment — are
the single greatest predictor of long-term paver performance. Here is a direct
comparison across project types.
Vision Grounds — Driveways
- 12-inch full excavation
- Geotextile fabric at excavation floor
- Tensar HX145 Geogrid — Mechanically Stabilized Layer
- Open-grade angular stone base — drains freely
- Concrete beam edge restraint with rebar and fiberglass — every project
Vision Grounds — Patios, Walkways & Entries
- 4 to 6-inch excavation — correct for pedestrian loads
- Geotextile fabric at excavation floor
- Open-grade angular stone base — drains freely
- Graded for positive drainage
- Concrete beam edge restraint with rebar and fiberglass — every project
Industry Standard
- 4-inch compacted gravel (typical for all project types)
- No geotextile fabric — soil migrates into base over time
- No geogrid reinforcement
- Compacted base retains water beneath surface
- Plastic spike-down edge restraints — prone to failure over time
Ready to discuss your project?
A Project Readiness Consultation is a site walk and honest
conversation — not a sales call. We assess your site, explain
the process, and give you an accurate picture of scope
and investment.