Compare the highest-rated roofing professionals in Lyme, New Hampshire. All contractors are licensed, insured, and verified through our rigorous screening process.
A premier full-service roofing contractor serving Lyme and the Upper Valley region. Specializes in high-quality asphalt shingle and standing seam metal roof installations designed to withstand New England's harsh winters. Their team is certified in storm damage assessment and works directly with insurance companies to streamline claims.
A family-owned and operated roofing company with deep roots in the Lyme community. Known for exceptional craftsmanship in both residential and light commercial roofing, including slate and tile restoration. They offer comprehensive maintenance programs to prevent ice dam formation and other winter-related damage common in the region.
Specializes in rapid response for emergency roof repairs and storm damage throughout the Lyme area. Offers 24/7 emergency service for leaks, wind damage, and fallen trees. They are experts in quick assessments and temporary solutions to prevent further property damage before performing permanent repairs or full replacements.
Lyme, NH experiences a humid continental climate with cold, snowy winters and warm summers. The roofing market is heavily influenced by the need for durability against heavy snow loads, ice dams, and occasional severe storms. High-quality installation and proper ventilation are critical to prevent winter damage. Most reputable contractors are familiar with working directly with insurance companies on storm-related claims. The market consists of a mix of local established companies and larger regional providers that service the Upper Valley area.
4.7+ star average from verified customer reviews
All contractors are properly licensed and insured
10+ years average experience in the industry
Familiar with Lyme regulations and climate
Get answers to common questions about roofing services in Lyme, New Hampshire.
Lyme experiences significant temperature swings, heavy snow loads, and freeze-thaw cycles, which are demanding on roofing materials. We strongly recommend impact-resistant asphalt shingles (rated Class 4) for hail resistance or durable metal roofing, which excels at shedding snow. Proper attic ventilation and ice and water shield underlayment at the eaves are non-negotiable local specifications to prevent ice dams, which are a common winter issue here.
A standard asphalt shingle replacement on a typical Lyme home takes 2-4 days, barring major weather delays. The ideal scheduling window is late spring through early fall (May to October) to avoid winter conditions. However, due to high demand, reputable local roofers are often booked months in advance, so we recommend contacting contractors in late winter or early spring to secure a spot for the upcoming season.
Yes, the Town of Lyme requires a building permit for a full roof replacement. If your home is in the Lyme Historic District or a designated historic property, there may be additional review requirements for material or color changes. A reputable local roofer will handle the permit application process with the Lyme Building Department, ensuring all work meets the New Hampshire State Building Code and local amendments.
Prioritize contractors who are licensed in New Hampshire, carry full liability and workers' compensation insurance, and have a verifiable physical local address. Ask for references from recent projects in Lyme or neighboring towns like Hanover or Orford, as they will have direct experience with our specific climate challenges. Always check their standing with the NH Attorney General's Consumer Protection Bureau and the Better Business Bureau.
After winter, inspect for missing or cracked shingles from ice and wind, sagging roof planes indicating potential structural stress from snow load, and interior water stains on ceilings or walls, especially in the attic. Critically, check for granules in your gutters (sign of advanced wear) and ensure all roof and plumbing vent flashings are intact, as these are common failure points after freeze-thaw cycles in our climate.