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8 Earthquake-Resistant Construction Techniques for a Reliable Build
How much will it cost per square foot to build an Fox Blocks ICF home?

Build­ing with Fox Blocks ICFs pro­vides you with a high per­for­mance wall sys­tem for the foun­da­tion and above grade walls. Build­ing any high per­for­mance home, with either ICFs or con­ven­tion­al wood fram­ing, has many fac­tors that define the end cap­i­tal costs.

What addi­tion­al mate­ri­als and labor are required to make a con­ven­tion­al foun­da­tion equiv­a­lent to an Fox Blocks ICF foun­da­tion which exceeds ener­gy code require­ments in most loca­tions? Con­ven­tion­al wood fram­ing requires con­sid­er­ably more mate­r­i­al, insu­la­tion and atten­tion to air seal­ing to make it qual­i­fy and per­form as a high per­for­mance wall. All of this, for con­ven­tion­al con­struc­tion, adds mate­r­i­al and labor costs to the over­all project. Fox Blocks ICFs pro­vide a sim­ple method to build high per­for­mance walls that pro­vide ongo­ing ben­e­fits from the high insu­la­tion val­ues and mass con­crete walls that are ener­gy-effi­cient and pro­vide cost sav­ings for the life cycle of the build­ing.

Com­par­ing cost per square foot between con­ven­tion­al con­struc­tion and ICFs for a high per­for­mance build­ing, is like com­par­ing apples to oranges. To devel­op con­struc­tion costs, more detailed infor­ma­tion is required, for instance the num­ber and size of open­ings, the shape and size of the home, the region­al costs for mate­r­i­al and labor, etc. If you have a project you’d like us to review and pro­vide a mate­r­i­al esti­mate, Fox Blocks would be hap­py to have one of our rep­re­sen­ta­tives con­tact you. Please com­plete and sub­mit a lead infor­ma­tion sheet on the web­site or call Cus­tomer Ser­vice.

MACNAK CONSTRUCTION CORPORATE OFFICE 11
MACNAK CONSTRUCTION CORPORATE OFFICE
Mac­nak Con­struc­tion uti­lized sev­er­al new con­struc­tion prod­ucts in its new ener­gy effi­cient office build­ing.
Building & Connecting Efficient ICF Additions to a Home
Understanding the Construction Process for an ICF Home Addition
How to Design an Earthquake Resistant Home
How to Design an Earthquake Resistant Home: a Definitive Guide
Elevated homes
Designing for Disaster Protection and Storm-Proof Homes
Exte­ri­or wind dam­age is respon­si­ble for 25% of all home­own­er insur­ance claims. That doesn’t include the inte­ri­or loss­es that occur when dam­aged win­dows and roofs let rain wreak hav­oc inside. While we can’t pre­vent wind­storms, we can lessen their dam­age by plan­ning home designs with wind-resis­tance as a top pri­or­i­ty.
Wind Resistant Home with Insulated Concrete Forms Header
How to Build a Wind-Resistant Home with Fox Blocks ICFs
Trag­i­cal­ly, between 2000 and 2017 there were 894 wind and 1417 tor­na­do-relat­ed deaths. In 2017, 36 per­cent of the wind and 63 per­cent of the tor­na­do-relat­ed fatal­i­ties hap­pened either in a mobile or per­ma­nent home. A wind-resis­tant design is crit­i­cal to a home­’s integri­ty and a family’s safe­ty.
Crop Durable Cabin Cottage with Fox Blocks Header
Building a Year-Round, Energy-Efficient and Durable Cabin with Fox Blocks ICF
Cab­ins and cot­tages often start as a sec­ond home or week­end retreat. ICF con­struc­tion ensures year-round use of the cab­in.
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How to Design a Home or Building with Good and Healthy Air Quality
How do I determine which size ICF to use?

ICFs pro­vide a rein­forced con­crete wall which is designed to spe­cif­ic engi­neer­ing prin­ci­ples. Typ­i­cal res­i­den­tial con­struc­tion, per the applic­a­bil­i­ty lim­its in the build­ing code, allows walls 10′ (3 m) high or less between lat­er­al sup­ports (floor and roof con­nec­tions). Below grade walls must have a min­i­mum 6″ (150 mm) con­crete core. In some regions, an 8″ (200 mm) con­crete core is the min­i­mum allowed thick­ness for below grade walls.

The 4″ (100 mm) form can­not be used below grade as a foun­da­tion wall. The 4″ (100 mm) form may be used for above grade walls up to a max­i­mum of 10′ (3.0 m).

The 6″ (150 mm) form, above grade, is lim­it­ed to approx­i­mate­ly 14′ (4.2 m) in height. Walls high­er than 14′ (4.2 m) must use an 8″ (200 mm) or larg­er form.

Typ­i­cal res­i­den­tial con­struc­tion will use 6″ or 8″ con­crete core size blocks. Project spe­cif­ic engi­neer­ing may allow for some core thick­ness to span ver­ti­cal­ly high­er than these pro­posed guide­lines.