Windshield replacement Broken Arrow typically involves a several-step process done by a technician:

  1. Preparation:
    • The technician will protect the interior of your car by covering the dashboard and seats.
    • They will then remove any components attached to the windshield like wipers, rearview mirror, and trim pieces.
  2. Removing the Old Windshield:
    • A special tool is used to carefully cut through the urethane sealant that bonds the windshield to the frame of the car.
    • Once the seal is cut, the technician will carefully remove the old windshield with the help of another person or suction cups.
  3. Cleaning and Preparing the Installation Area:
    • The technician will meticulously clean the frame (pinch weld) where the new windshield will be installed. This removes any old urethane, dirt, or debris that could affect the bond.
  4. Installing the New Windshield:
    • The technician will apply a primer to the pinch weld to improve adhesion of the new urethane sealant.
    • A bead of urethane sealant is then applied around the perimeter of the pinch weld.
    • The new windshield replacement Broken Arrow is carefully positioned and set into the frame. Suction cups or wedges may be used to hold it in place while the urethane cures.
  5. Curing and Finishing Touches:
    • The car needs to sit undisturbed for a specific amount of time (usually several hours) to allow the urethane sealant to cure properly.
    • Once cured, the technician will reinstall the windshield wipers, rearview mirror, and any other trim pieces that were removed.
Additional Points:
  • Newer vehicles with advanced driver-assistance systems (ADAS) may require recalibration of the cameras or sensors mounted on the windshield after replacement. The technician will advise you on this if necessary.
  • It’s generally recommended to avoid driving the car immediately after a windshield replacement and to follow the technician’s specific instructions regarding cure time and driving limitations.

Windshield repair is a simpler process compared to replacement and can usually be completed in less than an hour. Here’s a breakdown of the typical steps involved:

  1. Damage Assessment:
    • The technician will first assess the damage to ensure a repair is possible. Cracks longer than a quarter-inch, multiple cracks, or damage in the driver’s direct line of sight typically require windshield replacement Broken Arrow.
  2. Cleaning the Area:
    • The technician thoroughly cleans the area around the damage, removing any dirt, debris, or moisture that could interfere with the repair process.
  3. Resin Injection:
    • A small drill bit might be used to create a small entry point in the crack to facilitate better resin flow (not always necessary).
    • A special injector is then used to fill the crack with a clear resin designed to bond with the glass.
    • A vacuum may be used to remove any air bubbles trapped within the crack.
  4. Resin Curing:
    • Once the crack is filled with resin, a UV lamp is used to cure the resin. This process hardens the resin and fills the crack, making it stronger and less visible.
  5. Finishing Touches:
    • The technician will remove any excess resin from the windshield surface and polish the area for a clear finish.
Here are some additional things to keep in mind about windshield repair:
  • The success of a repair depends on the severity of the damage. Small chips and cracks are generally the most suitable for repair.
  • The repair won’t make the damage completely disappear, but it can significantly improve the clarity and structural integrity of the windshield.
  • Windshield repairs are typically more affordable than replacements.
  • Check with your insurance company as they may cover windshield repair costs.

ADAS calibration is the process of ensuring the cameras and sensors in your car’s Advanced Driver-Assistance Systems (ADAS) are precisely aligned and functioning correctly. Here’s a general idea of what ADAS calibration involves:

Preparation:
  • The technician will first consult the manufacturer’s specifications for your specific vehicle model. This ensures they follow the correct calibration procedures.
  • They will then check your car to meet calibration requirements. This may involve things like verifying tire pressure, steering wheel alignment, and having a full gas tank (to maintain a level ride height).
Setting Up the Calibration Environment:
  • Depending on the system being calibrated, there are two main calibration methods: static and dynamic.
    • Static calibration typically requires a controlled indoor environment with minimal distractions. The technician will set up a calibration frame with targets or reflectors at a specific distance from the vehicle.
    • Dynamic calibration, on the other hand, might involve driving the car on a specific stretch of road with clear lane markings and minimal traffic.
Calibration Procedure:
  • The technician will use diagnostic tools to interface with the car’s ADAS systems.
  • They will then follow the manufacturer’s instructions to initiate the calibration process. This may involve driving the car at a specific speed or following a specific path while the system gathers data from the cameras and sensors.
Verification and Completion:
  • Once the calibration process is complete, the technician will verify that the system is functioning properly using the diagnostic tools.
  • They will then provide you with a report detailing the calibration results.
Additional Points:
  • ADAS calibration is often recommended after windshield replacement Broken Arrow, especially if the windshield mounted a camera or sensor.
  • Some ADAS systems may also require calibration after repairs that involve disassembly or movement of components near the cameras or sensors.
  • Calibration can take anywhere from 30 minutes to several hours depending on the complexity of the system and the calibration method used.

It’s important to note that ADAS calibration is typically a job for a trained technician with the proper equipment and knowledge. While the specifics may vary depending on the vehicle and system, the overall process involves careful preparation, setting up a controlled environment, and using diagnostic tools to ensure the precise alignment and function of the ADAS features.