Compare the highest-rated roofing professionals in Emily, Minnesota. All contractors are licensed, insured, and verified through our rigorous screening process.
A highly-rated regional roofing contractor serving the Emily area with comprehensive residential and commercial services. Specializes in storm damage restoration and insurance claim assistance, particularly important for Minnesota's severe weather patterns. Known for quality craftsmanship with asphalt, metal, and specialty roofing systems.
Local contractor with extensive experience serving the Emily lakes area. Specializes in both residential and light commercial roofing with expertise in handling Minnesota's freeze-thaw cycle damage. Offers robust maintenance programs to extend roof lifespan in harsh northern climates.
Serving the Emily region from nearby Brainerd, this contractor specializes in emergency storm response and roof restoration. Particularly skilled at addressing hail and wind damage common in central Minnesota. Offers 24/7 emergency services and works directly with insurance companies.
Emily, Minnesota's roofing market is characterized by specialized contractors addressing the region's extreme weather conditions, including heavy snowfall, ice dams, hail storms, and high winds. The local climate demands durable roofing materials and proper installation techniques to withstand temperature extremes from -30°F winters to 90°F summers. Most reputable contractors specialize in storm damage restoration and insurance claim assistance due to frequent severe weather events. Metal roofing has gained popularity for its snow-shedding capabilities and durability against hail.
4.7+ star average from verified customer reviews
All contractors are properly licensed and insured
10+ years average experience in the industry
Familiar with Emily regulations and climate
Get answers to common questions about roofing services in Emily, Minnesota.
Emily's harsh Minnesota climate, with heavy snow loads, freeze-thaw cycles, and summer humidity, demands durable materials. We strongly recommend impact-resistant asphalt shingles (rated Class 3 or 4) to withstand hail or metal roofing, which excels at shedding snow. Proper attic ventilation is also critical here to prevent ice dam formation, which can significantly shorten a roof's lifespan if not addressed.
For a standard 2,000 sq. ft. home in the Emily area, a full tear-off and replacement with quality architectural asphalt shingles typically ranges from $12,000 to $20,000. Final cost depends on roof complexity (steepness, valleys), the need for new decking, and material upgrades (e.g., metal). Always get 2-3 detailed, written estimates from local, licensed contractors to ensure a fair price for our regional labor and material costs.
The ideal scheduling window in our area is late spring through early fall (May to October). This avoids the deep freeze of winter, which makes materials brittle and installation hazardous, and the unpredictable snows of late fall. However, demand is highest in summer, so booking your project in early spring for a summer/fall installation is the best strategy to secure a spot with a reputable local roofer.
First, verify they are licensed and insured in Minnesota, and carry specific workers' compensation. Look for established local companies with physical addresses (not just P.O. boxes) who can provide references from nearby projects in towns like Crosby or Brainerd. They should be familiar with local building codes and offer strong warranties on both materials and their workmanship to protect your investment against our regional weather.
Yes, ice dams are a very common and damaging issue due to our long, snowy winters and temperature fluctuations. A proper roof replacement addresses this by ensuring adequate attic insulation and, crucially, installing a continuous ventilation system (soffit and ridge vents) to keep the roof deck cold. Additionally, we install a waterproof ice and water shield membrane along the eaves and valleys, which is a critical, code-recommended step in our climate to prevent water infiltration if dams do form.