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Wednesday, 23 January 2013 16:00

Fox Island Refinish

Cleaning and refinishing at family cabin on Fox Island, WA
(Click "Read More" for description & photos)
Wednesday, 23 January 2013 14:36

Outdoor Renovation

The following work began as a dream to create a more functional and beautiful series of spaces around the home.  The driving idea was to create something "magical" of the landscaping to reflect the upgrades previously done to the interior of the home.

Sunday, 13 May 2012 17:00

Garages

Log garages...

Friday, 11 May 2012 15:42

Design & Engineering

We at Creasey Log Homes understand the need for quality, informed design at the outset of a log home building project.  Although highly educated in a number of areas, even a licensed architect typically does not understand the specialized demands of log home construction.  It is for this reason that we offer in-house design services.  The end result for you as our customer is a seamless integration between designer and builder offering you a more holistic approach to building with better communication and more informed decisions along the way.

All of our conceptual and construction document production is performed utilizing CADD (Computer-Aided Design & Drafting).  The benefits include clarity, accuracy, and quicker editing capability.  Information can also more easily be transferred and utilized by our structural engineer operating a similar system.

In addition to design, Creasey Log Homes offers many other pre-construction services as well.  A summary of those, as well as further explanation of our design process, follows: 

1) PRE-DESIGN 

PROPERTY RESEARCH & FEASIBILITY

This is where we take some time to establish exactly what can and can't be done on the property before committing to design ideas that may or may not work based on zoning, critical areas, buffers, and the like. This phase includes work such as:

            -Pursue Critical Area Determination (King County only)

            -Drainfield Design & Water Requirements (Verify what's been done & obtain copies of approvals)

            -Zoning Study

                        -Research Property Line Setbacks

                        -Discover Limitations On Building Massing

            -Determine Applicable Studies Required

                        -Wetland Delineation And/Or Mitigation

                        -Geotechnical Study

            -Survey (If Deemed Necessary)

AS-BUILT ARCHITECTURAL DRAWINGS (REMODELS/ADDITIONS ONLY)

At the same time as Property Research is being done we can essentially "survey" the building and prepare accurate drawings of the current conditions.  This will serve as a future basis for the Design phase- i.e., we need to know exactly what is there in order to design accurately around it.  This phase includes work such as:

            -Field Measure Existing Building(s)

            -Draft All Relevant Existing Built Conditions

2) DESIGN

CONCEPTUAL DESIGN

Once we verify our limitations and have existing conditions defined we can come up with the overall concept.  This phase includes work such as:

            -Graphically Define Overall Scope Of Project

            -Basic Space Planning

            -Determine Essential Elements Of Building Massing (Overall "Look" Of Home)

ARCHITECTURAL DEVELOPMENT

After the overall concept is determined we define it in greater detail.  This phase includes work such as:

            -Firm Dimensions Of All Rooms & Elements (Windows, Door Sizes, etc.)

            -Elevations Defined By Materials, Heights, Window Openings, etc.)

            -Preliminary Construction Estimates

3) CONSTRUCTION DOCUMENTS & ENGINEERING

This phase produces the actual working drawings that are built with or "blueprints."  This phase includes work such as:

            -Develop Architectural Drawings w/ Notes & Dimensions

            -Draft Framing Plans & Relevant Details

            -Format All Sheet Layouts

            -Perform Plan Check For Building Code Compliance & Quality Standards

            -Facilitate Structural Engineering Services

            -Revise Architectural Drawings As Necessary To Reflect Final Engineering

4) FINAL CONSTRUCTION ESTIMATES

Once all Construction Documents & Engineering reviews are complete, sufficient detail is established such that the Final Construction Estimate can be performed.  Hard-line costs are determined, not only for labor and materials  supplied by Creasey Log Homes, but for necessary sub-contractors as well.  This phase includes work such as:

            -Material Quantity Take-Offs

            -Proposals For Labor

            -Bid Management; i.e. Communicating All Necessary Information To Sub- Contractors & Reviewing Bids

            -Preparation Of The Final Construction Proposal

5) PERMITTING

All materials required for a building permit review are packaged together and submitted to the building department.  This phase includes work such as:

            -Complete All Relevant Applications

            -Create A Site Development Plan

            -Package & Prepare Documents For Submittal

            -Permit Intake

 

 

 

 

Thursday, 10 May 2012 17:04

Carnation Accessory Dwelling Unit

Still in process, this Carnation, Wa Accessory Dwelling Unit (i.e. a Mother-In-Law Apartment) is the second home for Creasey Log Homes utilizing Apex brand Insulated Concrete Forms (ICF) as the primary wall structure.  ICF systems are desirable for savvy homeowners on many accounts.  This particular product utilizes recycled materials, is high in insulative value, retards sound transmission, and produces far less jobsite waste than conventional construction methods.

Thursday, 10 May 2012 16:17

Lakeside Remodel

When the owners of this Lake Cochran, Wa home wanted to remodel and take the opportunity to install log trusses as a strong focal point, they contacted Creasey Log Homes.  Although previously expanded once before, the remaining 1960's cabin was to be rehabbed to, among other things, create a more functional layout and revise the rooflines to better orient upon the lake view. 

Wednesday, 09 May 2012 16:46

Spring Inspection & Maintenance Checklist

Spring Inspection & Maintenance Checklist

Creasey Log Homes

 

With the advent of warmer weather, Spring is probably the single best time to get out and inspect and preserve your log home.  And, if problem areas are discovered, the upcoming Summer months are the optimal season for maintenance work.  After decades of restoration work we have seen recurring themes that, if only they were systematically addressed, would minimize expenses for repair.  The following are some of our strongest recommendations for caring for your log home:

#1 Wash Your Logs

Over time, your home's logs will see a build-up of dust, pollen, and good old-fashioned grime that can set into your log finish and actually develop damaging mildew.  One of the best recommendations for prolonging the life of your log home finish is to annually wash it with an ecologically-sound cleaning solution and mild scrubbing tools.  Pressurized washing equipment is not required but, if you opt to use it, make sure the pressure is light enough to not remove or weaken any of the finish.  If you choose to stay up on this process yearly, the effort will not be too difficult and the benefits will be significant.

#2 Inspect Your Logs

During the process of cleaning, or at a separate time, you can give some closer examination to potential problem areas needing attention.  The following are some of the more likely suspects that may need inspection:

- Railing Systems & Porch Posts

Log rails, though sometimes protected by porch roofs above, are often directly exposed to the elements.  At least wall logs will typically have some measure of roof protection overhead.  With such constant pounding from ultra-violet rays and, in Western Washington, high precipitation, railings are often one of the first components of a log home to begin to fail.  Watch for up-facing checks and consider having them sealed to prevent water intrusion. 

As well, the horizontally-cut tops of rail posts have three critical faults and deserve special attention.  First, they consist of porous end grain that seeks to absorb moisture more than any other part of the log.  Second, tangential shrinkage causes checks to open up which can funnel water deep into the log where it is difficult for the moisture to evaporate.  Third, it goes almost without saying that the horizontal surface itself lacks the ability to shed water complicating the first two issues.  If it appears that the weather is winning out over your posts consider having Creasey Log Homes install protective, malleable sheet metal caps to seal off any water penetration before it can cause further damage.

Likewise, the base of porch posts can often see a greater weather exposure than other elements of the home.  The reason is simple:  rain and UV rays seldom fall in an exclusively vertical manner and down low the posts are less protected from the roofline above.  Although wall logs theoretically experience this same phenomenon, they are most often elevated above the ground.  Posts are regularly mounted directly to a hard surface such as deck or patio material and its the resulting water splash that, over time, can create a potentially troubling situation.  Be sure to inspect these areas carefully for possible development of rot and create a more aggressive plan for maintaining the protective finish.

- Extended Logs

Any time a log extends out of a wall the possibilities for an undesirable issue increase.  Examples of extended logs are corner tails, log joist tails at an upper floor level, balcony joists, or purlins that extend beyond the roofline (in fact, a purlin can be susceptible to danger even if it does not extend beyond the line of the roof if the fascia does not adequately cover it).  These elements realize an increased exposure to the elements and have horizontally-aligned surfaces that can be slow to shed water and may even accumulate it if there are open checks.  Should rot begin to develop it is easy for it to begin to spread within the log and to the interior of the wall.  With joist ends and balcony logs that are contiguous with the upper level floor framing, this can spell real danger.  If you suspect that your balcony log joists may be suffering damage, consider having Creasey Log Homes apply a protective covering to alleviate any long-term effects.

- Lower Wall Logs

The lower log courses of your walls can experience greater weather exposure and the effects of vegetation.  Pay special attention here and review the following comments about plants and shrubs.

#3 Cut Back Shrubbery

One of the most easily fixable, yet potentially damaging, concerns is centered around landscaping that is too close to the home.  Vegetation limits air circulation and tends to shade and trap moisture in an area where you don't want it.  Use common sense here; the more you can trim it back, the better.

#4 Inspect Your Sealants

In addition to log material itself, review any applied sealants including caulking and chinking.  Make sure that no new significant skyward-facing checks have appeared or that previous applications have torn or pulled away from their bonding surfaces.

#5 Check Your Gutters

Some of the most detrimental damage that we have seen involves gutters and downspouts that are not working properly.  Clogged gutters, improperly sealed connections, or gutters that do not extend far enough to capture all cascading rainfall from the roof, will concentrate water exposure and limit the ability of your logs to dry out.  If not immediately addressed, such long term exposure will be quite negative in its effects.

These recommendations are within the ability of most homeowners to adopt.  With regular attention many of the potential problems that could be experienced by your log home can be alleviated.  However, should you require an application of a new finish or other protective materials, please do not hesitate to schedule an inspection and obtain a free quote for services.

 

 

Research Report on Energy Efficiency of Log Home Buildings

Credit: Bitterroot Valley Log & Timber
2036 US Hwy 93 N. - Victor, MT 59875  (406) 642-3091

 

Margaret Lowe, in her article entitled "Myths and Truths of Log Home Ownership" addresses the efficiency of Log Homes.

She wrote: "Myth #1: Log homes are not energy-efficient: FALSE, in capital letters. Early in this decade, the nation's model energy code finally recognized what the log home industry had claimed for 20 years -- that a log wall's thermal mass makes it as energy-efficient as a well-insulated wall. This claim wasn't acknowledged during all those years because thermal mass is difficult to quantify. Log home owners had the heating bills to prove it was true. but the Department of Energy and national code officials needed more than empirical evidence. So for 13 years the Log Homes Council ( a division of the National Association of Home Builders in Washington, DC) gathered scientific statistics from independent research projects to substantiate its claim.

"At the heart of the debate were R-Values, the measure of heat transfer through materials. When the energy crisis struck in the mid 1970's, state and federal governments had to quickly develop new energy-performance standards for residential construction and all the building materials used in that construction. Since the situation was a crisis, and the R-value methodology already existed, it became the standard, no questions asked.

"R-value measures a material's resistance of heat from one side to another. Log's have a relatively low resistance to heat transfer. In fact, they actually absorb and store heat in their cellular structure. This puts them at a serious disadvantage in the cold weather states. Producers had to overbuild their houses in order to meet total R-value requirements. This not only drove up construction costs, it also created a lot of confusion.

"The opposite of R-value, thermal mass, measures a material's capacity to absorb, store, and slowly release heat over time when temperatures drop. Logs do this very well because of their cellular structure, bulk, and thickness. The problem, was proving it.

"An early breakthrough came in studies conducted by the National Institute of Standards for HUD in 1981-82. The studies proved thermal mass does significantly reduce heating and cooling loads in moderate climates. however, energy experts continued to question the value of thermal mass during the winter months in northern climates where heat is a constant need (or during summer months in southern climates where cooling is in need) and thermostat settings are opposite outdoor temperatures.

"Two more recent studies, both conducted in cold climate states, proved the log home industry was right.

"In 1990, an independent testing agency, Advanced Certified Thermography, conducted a study for the Energy Division of the Minnesota Department of Public Service. Its focus was heat loss through air leakage, which was assumed to be a special problem with log homes because of their many joints. The study found the industry's improved joint construction and its use of expanded foam sealants and gaskets at joints and corner intersections had substantially reduced air-infiltration rates. The study concluded air leakage in a well-built, modern log home is not due to its log walls. In fact, in the 23 homes studied, it found air leakage occurs in the same places it occurs in conventional frame homes: at the top of cathedral ceilings, around window and door frames, and along the tops of walls where they join the roof.

"A second study, conducted in 1991 for the Log Homes Council by the National Association of Home Builders (NAHB) National Research Center, discovered the thermal mass of log walls does significantly reduce energy use for heating in cold climates. It based its conclusions on a comparison of actual energy use in eight log homes to the actual energy use of eight well-insulated frame houses during one winter. The 16 homes were evenly divided between upstate New York and Montana. The study also compared the homes' actual energy use to their predicted energy consumption. The results led to the conclusion that log homes were as energy-efficient as well-insulated frame houses. What is especially significant about this study is that the average R-value of the log walls was 44 percent lower than the average R-value of the frame walls. Obviously, the thermal mass performance of log walls is an advantage to log home owners."

According to an article by Peter M Hart of New England Log Homes: "the oft-cited R-value (resistance) factor is meant to be a measure of heating efficiency but actually, that concept is both inaccurate and misleading. As an example, an illusion is created to convey to the homebuyer that if three inches of fiberglass is good, then six inches is twice as good and naturally, 12 inches is four times better.

"NOT SO! After a certain amount of insulation has reached optimum, the overage of insulation is waste and does not justify the additional cost.

"To arrive at the R-value of a particular type of insulation, heat is passed through the material by conduction, under fixed temperatures and only when the material is completely dry. No consideration is given to convection, radiation loss, solar input, heat and storage capabilities and the influence of moisture.

"For instance, a test of fiberglass sample rated R-13 when dry is reduced to R-8.3 when conditions reach a moisture content of 1.5% -- a loss of 40% insulation efficiency."

These R-value standards were determined under unrealistic conditions due to the fact that we all live in a humidity laden atmosphere. This humidity level is compounded in the home environment.

 

Wednesday, 09 May 2012 10:05

Shower House

This detached shower house serves occupants of an adjacent cabin with toilet and washing facilities.  Solar energy powers the electrical needs including the structure's water pumping system.  The shower and floors are formed with bluestone in an organic pattern with stream stones embedded to mimic a meandering stream bed.  The whimsical "outhouse" seat conceals a real, working toilet to maintain a sanitary condition.  The services are completed by a highly custom vanity utilizing a bluestone counter, live-edge wood bordering, salvaged Fir from a deconstructed grain silo, and branch door pulls.

 

Tuesday, 01 May 2012 11:32

Redmond Horse Barn

The following barn in Redmond, Wa features custom doors and cupola and is built with an expansive storage loft.  All stall fronts were also built by hand.  ("Read More" and scroll down for photos)
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