[GSBN] Follow up re mesh in clay

Thu Aug 29 16:06:46 UTC 2013

Felie,

Not off topic at all.  This looks like a terrific kit for testing the
important characteristics of soil and earthen materials for construction.

I like the low tech and compact press using a small jack for testing
compressive strength of samples.  The entire kit is expensive for a single
project in a poor community, but I can see it being very valuable for an
entire community or an organization implementing multiple projects.  And it
is far less expensive than a full lab and is portable.  One could also
obtain only the pieces that are relevant to specific needs.  The instruction
pdf looks great.

Thank you.

Martin

Martin Hammer, Architect
Builders Without Borders
Berkeley, CA, USA
510-525-0525  (office)
510-684-4488  (cell)
Port-au-Prince, Haiti
509-4930-8579 (Haiti cell)
www.builderswithoutborders.org

On 8/29/13 8:53 AM, "Feile at Mud and Wood" <feile at mudandwood.com> wrote:

> Slightly off topic - but this soil testing kit was developed at Bath
> University, UK, specially for earth construction in developing countries
> (including conservation repairs) - all parts easily replaceable off the beaten
> track. It only became available this year.
>  
> http://www.bath.ac.uk/ace/research/cicm/low-carbon-materials/low-cost-test-kit
> -construction-apps.html
>  
> I'm not sure if tests for salts or PH are included - but all of the other
> characteristics necessary to make a judgement on soil suitability can be
> tested. It might be of interest to some of you.
>  
> Regards
>  
>  
> Feile
>  
>  
> Féile Butler
> MRIAI B.Arch Dip. Arch Conservation Grade III
> Mud and Wood
> Grange Beg, Skreen, Co. Sligo, Ireland
>  
> T:  +353 (0) 71 930 0488
> M: +353 (0) 86 806 8382
> E : feile at mudandwood.com
> W: www.mudandwood.com
> <mhtml:{AACFA5AA-422F-463C-803B-AB35086D2473}mid://00000614/!x-usc:http://www.
> mudandwood.com/> 
>>  
>> ----- Original Message -----
>>  
>> From:  Derek Stearns Roff <mailto:derek at unm.edu>
>>  
>> To: Global Straw Building Network <mailto:GSBN at sustainablesources.com>
>>  
>> Sent: Thursday, August 29, 2013 2:30  PM
>>  
>> Subject: Re: [GSBN] Follow up re mesh in  clay
>>  
>> 
>>  
>> As you will see below, a few of us have had a bit of off-list discussion  on
>> steel mesh in clay.  Martin thought this might be of interest to some  on the
>> GSBN list, so here it is.
>>  
>> 
>>  
>> Derek
>> 
>>  
>>  
>> On Aug 29, 2013, at 12:47 AM, martin hammer wrote:
>> 
>>  
>>>  
>>> Hi Derek,
>>> 
>>> Thanks  very much for taking the time to answer Dmitry¹s questions with such
>>> careful  thought.  People on the GSBN might also be interested in what you
>>> had  to say, but I¹ll leave it up to you if you want to post it (probably
>>> along  with Dmitry¹s questions) on the  GSBN.
>>> 
>>> Best.
>>> 
>>> Martin
>>> 
>>> 
>>> On 8/27/13 9:05 PM, "Derek Roff"  <derek at unm.edu <x-msg://11/derek@unm.edu>
>>> >  wrote:
>>> 
>>>  
>>>> Hi,  Dmitry and Martin,
>>>> 
>>>> I'm happy to try and answer your follow up  questions, although I don't
>>>> want to give the impression that I am an  authority.  I have researched
>>>> these questions out of my own interest,  and revisited some of them in
>>>> greater detail, in response to Martin's  questions.  I have not done any
>>>> formal research on this myself, but  am drawing from my modest building
>>>> experience, and from Internet research  resources.
>>>> 
>>>> Your question on testing soil in developing  countries is an interesting
>>>> one.  I don't know how available testing  materials would be in various
>>>> locations.  For testing pH, I think it  could be reasonable to transport
>>>> the needed pH paper.  pH paper is  inexpensive, and a single $10 roll could
>>>> test perhaps a hundred soil  samples.  pH paper can be very accurate.
>>>> Electronic pH meters  are another possibility.  Some are available for
>>>> under $100.  A  problem with electronic meters is that they require
>>>> calibration, normally  with carefully prepared calibration fluids of
>>>> certified pH.  That  makes the process rather more complex for mobile,
>>>> field operations.
>>>> 
>>>> Testing for salts is not so simple as using pH paper, but  there are
>>>> electronic soil salinity meters for around $100-$200.   There are a few
>>>> that cost less, including this one at $15.59.
>>>> http://www.amazon.com/HM-Digital-TDS-EZ-Measurement-Resolution/dp/B002C0A7Z
>>>> Y/ref=pd_sim_sbs_lg_2      I can't vouch for its accuracy, but perhaps it
>>>> would be sufficient for our building purposes.  Alternatively, soil
>>>> testing is one of the fundamentals of improving agriculture, so in many
>>>> locations, it might be possible to have soil tested locally by an
>>>> agricultural extension agency or laboratory.  This could be a good  way to
>>>> connect with the local economy and researchers.
>>>> 
>>>> On  your second point, I may have not communicated clearly in my earlier
>>>> message.  For galvanized steel, the zinc coating will, of course,  corrode
>>>> first, both because it coats the steel, and because it is intended  to be a
>>>> sacrificial coating.  I would think that galvanized steel  would always
>>>> last longer than bare steel, but it will cost more, and not  be as widely
>>>> available.  A separate point that I was trying to make,  is that with bare
>>>> steel in concrete, the rate of corrosion will increase  if some other
>>>> (non-reinforcing) galvanized steel or aluminum (or another  metal) is also
>>>> embedded in the concrete, or attached, nearby.  This  can happen when
>>>> concrete reinforced with normal, bare reinforcing steel  also has
>>>> galvanized or aluminum flashing, anchors, awnings, roofing,  decking, or
>>>> other metal objects embedded in the concrete or attached to  it.  These
>>>> dissimilar metals can set up an electrical potential, in  effect turning
>>>> the concrete into a simple battery.  The tiny current  flow will increase
>>>> the corrosion rate of the bare steel.  This is  sometimes called galvanic
>>>> corrosion.  It would not happen in clay  with a fairly neutral pH, that is
>>>> free of salts and other electrolytes.   It would happen in an acid soil, or
>>>> one with salts.  However,  earthen plasters/bricks/cob are likely to be
>>>> less electrically conductive  than concrete, even when they have a similar
>>>> salinity, so I would expect  the galvanic corrosion to be less in clay.
>>>> 
>>>> Increasing the pH  of the earthen material in contact with the steel will
>>>> decrease the  corrosion rate.  However, the effect is most significant at
>>>> really  high pH values, pH 11 or above.  Reaching this pH level would
>>>> require  a lot of lime, which would be very expensive.  If the clay soil
>>>> used  for the earthen mixes was mildly acidic, it might be reasonable to
>>>> add  enough lime to get the mix into the alkaline range (above pH 7).
>>>> Clays and limes vary, so every local soil and lime mix must be  tested to
>>>> make sure it bonds well without too much cracking.
>>>> 
>>>> Your final question is one that I am curious about, in  relation to clay
>>>> plasters with steel.  The research shows that steel  corrosion in concrete
>>>> increases in wetter climates, since it increases the  electrical activity
>>>> of the concrete.  I wonder if the same would be  true for steel in clay,
>>>> assuming non-acid, non-salty clay.  These  clays are less conductive and
>>>> great moisture buffers.  I want to  believe that they would protect the
>>>> steel more, but I don't have any  evidence to support this, beyond seeing
>>>> some very old steel embedded in  old adobe houses, with quite modest
>>>> corrosion levels.
>>>> 
>>>> I hope  some of this is useful.
>>>> 
>>>> Best wishes,
>>>> Derek
>>>> 
>>>> On Aug 26,  2013, at 5:04 PM, Dmitry Ozeryansky wrote:
>>>> 
>>>>  
>>>>> Hello Derek, 
>>>>> Thank you for your very  informative reply to our question!
>>>>> 
>>>>> May I ask you a few brief  follow ups?
>>>>>  
>>>>> * If we were to  recommend use of steel mesh in clay plaster for
>>>>> developing countries,  are there simple tests for salts and pH that we
>>>>> could/should prescribe  to determine if local subsoil is adequate?
>>>>> * You say that zinc  corrodes faster than steel in concrete, is that also
>>>>> true for clay?
>>>>> * Would you propose  adding lime to the plaster mix to further reduce the
>>>>> rate of  corrosion?
>>>>> * Do you think that  wet climates would significantly increase the rate of
>>>>> corrosion?  
>>>>> Best regards,
>>>>> 
>>>>> Dmitry  Ozeryansky
>>>>> 
>>>>> OZERYANSKY ENGINEERING
>>>>> www.ozerengineering.com <http://www.ozerengineering.com>
>>>>> <http://www.ozerengineering.com/>
>>>>> 
>>>>> 2254 Nelson Ave
>>>>> Memphis, TN 38104
>>>>> office:  901-305-6540
>>>>> cell: 510-287-6115
>>>>> 
>>>>> South Main Retrofit Initiative
>>>>> www.southmain-retrofit.org <http://www.southmain-retrofit.org>
>>>>> <http://www.southmain-retrofit.org/>
>>>> 
>>>> Derek  Roff
>>>> derek at unm.edu <x-msg://11/derek@unm.edu>
>>>> 
>>>> 
>>>> 
>> 
>>  
>> Derek Roff
>> derek at unm.edu
>> 
>> 
>>  
>> 
>>  
>> 
>>  
>> 
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