X-Virus-Scanned: clean according to Sophos on Logan.com Return-Path: Received: from nm10.bullet.mail.sp2.yahoo.com ([98.139.91.80] verified) by logan.com (CommuniGate Pro SMTP 5.3.11) with SMTP id 4651372 for flyrotary@lancaironline.net; Wed, 22 Dec 2010 16:10:58 -0500 Received-SPF: none receiver=logan.com; client-ip=98.139.91.80; envelope-from=keltro@att.net Received: from [98.139.91.67] by nm10.bullet.mail.sp2.yahoo.com with NNFMP; 22 Dec 2010 21:10:24 -0000 Received: from [98.139.91.22] by tm7.bullet.mail.sp2.yahoo.com with NNFMP; 22 Dec 2010 21:10:24 -0000 Received: from [127.0.0.1] by omp1022.mail.sp2.yahoo.com with NNFMP; 22 Dec 2010 21:10:24 -0000 X-Yahoo-Newman-Property: ymail-3 X-Yahoo-Newman-Id: 872644.70018.bm@omp1022.mail.sp2.yahoo.com Received: (qmail 42180 invoked by uid 60001); 22 Dec 2010 21:10:24 -0000 DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=att.net; s=s1024; t=1293052224; bh=0nqPWD/qN45npSkkeSwlZ/ozJW+lWX4qv9kX4sp8RaA=; h=Message-ID:X-YMail-OSG:Received:X-Mailer:References:Date:From:Subject:To:In-Reply-To:MIME-Version:Content-Type; b=bmYysgvMASmsIPA5JP+1LM3n/OhML2R+WMvFIGTJuuVulnu7hpULxqjH9sFiAu4Y4iQRqU+41XL0OIALBTGCcZSeZtbz/H8iKKBadUCeWyagbuii+CtZ6a+ey22SVWhiUSGsOPMGSDnmxa1ToOrNBx0ujty5woeG/JppY8svjek= DomainKey-Signature:a=rsa-sha1; q=dns; c=nofws; s=s1024; d=att.net; h=Message-ID:X-YMail-OSG:Received:X-Mailer:References:Date:From:Subject:To:In-Reply-To:MIME-Version:Content-Type; b=2L+iVy4pdreuZUQm6mvK7to2hqxr/3wfNa24OBJdE/IK2EJZIJGSR6PvO8xWeCfNifCduodiJJ3QTWilOy/QVWb6JfR3BfVpWF9kQlhMGY4rAsS4f32mdKP0cWpql/giGFjdHriKAFtC2OhrMos0i1afHijLfUWF1YGLgr619+A=; Message-ID: <617005.39245.qm@web83903.mail.sp1.yahoo.com> X-YMail-OSG: 589lLGMVM1kNfjg1l8Qb7a6qFaMDM6Sh1chKRT7RQvmKxnZ Do6n2g36YrXfy1.SxKr22PIaiOMWHY5dZ_00h8YArR00h5bz9CE0_9tYrI5F yHSYgFUPjpTGWt2bCjsyXb8qBixEvJoDS4Hn4FKhZpToixZObWx_XHjeQpII evr7MB8TL3_0lq6g4_1J.Z54DbVe0f.vVN0TXmLfhXXQxf69rOk4uiXyt9Yn fmaBLywfSE8TWCaigt8_cMxWxR6P.f3jc2VgBj5oE_3YzM2EvzeSGMTqmTx1 9e2LcbB6xcQ-- Received: from [208.114.45.238] by web83903.mail.sp1.yahoo.com via HTTP; Wed, 22 Dec 2010 13:10:24 PST X-Mailer: YahooMailRC/553 YahooMailWebService/0.8.107.285259 References: Date: Wed, 22 Dec 2010 13:10:24 -0800 (PST) From: Kelly Troyer Subject: Re: 13B Turbo Manifold To: Rotary motors in aircraft In-Reply-To: MIME-Version: 1.0 Content-Type: multipart/alternative; boundary="0-1979479021-1293052224=:39245" --0-1979479021-1293052224=:39245 Content-Type: text/plain; charset=iso-8859-1 Content-Transfer-Encoding: quoted-printable Ernest you make my head hurt !!...............Now I have to be a =0A"Metall= urgist"...............<:)=0A=A0=0AKelly Troyer=0A"DYKE DELTA JD2" (Eventual= ly)=0A"13B ROTARY"_ Engine=0A"RWS"_RD1C/EC2/EM2=0A"MISTRAL"_Backplate/Oil M= anifold=0A"TURBONETICS"_TO4E50 Turbo=0A=0A=0A=0A=0A________________________= ________=0AFrom: Ernest Christley =0ATo: Rotary motors = in aircraft =0ASent: Wed, December 22, 2010 2:= 35:58 PM=0ASubject: [FlyRotary] Re: 13B Turbo Manifold=0A=0AKelly Troyer wr= ote:=0A> Ernest,=0A>=A0 =A0 =A0 Not sure what you mean by "Welds not cleane= d up"...........All I see on =0A>these "TIG" welds is=0A> a slight discolor= ation at the edge of the weld bead caused by the arc heat..=0A=0AThe first = link of a Google search on "stainless steel welding corrosion" was =0Ahttp:= //www.mcnallyinstitute.com/04-html/4-1.html=0A=0AFrom that site:=0A=0AINTER= GRANULAR CORROSION=0A=0AAll austenitic stainless steels (the 300 series, th= e types that "work harden") =0Acontain a small amount of carbon in solution= in the austenite. Carbon is =0Aprecipitated out at the grain boundaries, o= f the steel, in the temperature range =0Aof 1050=B0 F. (565=B0 C) to 1600= =B0 F. (870=B0 C.). This is a typical temperature range =0Aduring the weldi= ng of stainless steel.=0A=0AThis carbon combines with the chrome in the sta= inless steel to form chromium =0Acarbide, starving the adjacent areas of th= e chrome they need for corrosion =0Aprotection. In the presence of some str= ong corrosives an electrochemical action =0Ais initiated between the chrome= rich and chrome poor areas with the areas low in =0Achrome becoming attack= ed. The grain boundaries are then dissolved and become non =0Aexistent. The= re are three ways to combat this:=0A=0A=A0 =A0 * Anneal the stainless after= it has been heated in this sensitive range. =0AThis means bringing it up t= o the proper annealing temperature and then quickly =0Acooling it down thro= ugh the sensitive temperature range to prevent the carbides =0Afrom forming= .=0A=A0 =A0 * When possible use low carbon content stainless if you intend = to do any =0Awelding on it. A carbon content of less than 0.3% will not pre= cipitate into a =0Acontinuous film of chrome carbide at the grain boundarie= s. 316L is as good =0Aexample of a low carbon stainless steel.=0A=A0 =A0 * = Alloy the metal with a strong carbide former. The best is columbium, but = =0Asometimes titanium is used. The carbon will now form columbium carbide r= ather =0Athan going after the chrome to form chrome carbide. The material i= s now said to =0Abe "stabilized"=0A=0AThey could have used a filler that ma= de post treatment unnecessary, or they =0Acould have annealed it.=A0 The li= nk you gave says it is made of T304.=A0 Depending =0Aon which T304, the car= bon ranges from .03 to .08%, so it may not be an issue at =0Aall.=0A=0A=0A-= -=0AHomepage:=A0 http://www.flyrotary.com/=0AArchive and UnSub:=A0 http://m= ail.lancaironline.net:81/lists/flyrotary/List.html=0A --0-1979479021-1293052224=:39245 Content-Type: text/html; charset=iso-8859-1 Content-Transfer-Encoding: quoted-printable
=0A
Ernest you make my head hurt !!...............Now I= have to be a "Metallurgist"...............<:)
 
=0A

Kell= y Troyer
"DYKE DELTA JD2" (= Eventually)

=0A

"13B ROTARY"_ Engine
"RWS"_RD1C/EC2= /EM2
"MISTRAL"_Backplate/Oil Manifold

=0A

"TURBONETICS"_TO4E50 Turb= o

=0A

=0A

=0A
=0A<= HR SIZE=3D1>=0AFrom: Ernest= Christley <echristley@att.net>
To: Rotary motors in aircraft <flyrotary@lancaironline.net= >
Sent: Wed, December= 22, 2010 2:35:58 PM
Subject: [FlyRotary] Re: 13B Turbo Manifold

Kelly Troyer wrote:<= BR>> Ernest,
>      Not sure what you mean by "Weld= s not cleaned up"...........All I see on these "TIG" welds is
> a sli= ght discoloration at the edge of the weld bead caused by the arc heat..
=
The first link of a Google search on "stainless steel welding corrosion= " was http://www.mcnallyinstitute.com/04-html/4-1.html

From that sit= e:

INTERGRANULAR CORROSION

All austenitic stainless steels (t= he 300 series, the types that "work harden") contain a small amount of carb= on in solution in the austenite. Carbon is precipitated out at the grain boundaries, of t= he steel, in the temperature range of 1050=B0 F. (565=B0 C) to 1600=B0 F. (= 870=B0 C.). This is a typical temperature range during the welding of stain= less steel.

This carbon combines with the chrome in the stainless st= eel to form chromium carbide, starving the adjacent areas of the chrome the= y need for corrosion protection. In the presence of some strong corrosives = an electrochemical action is initiated between the chrome rich and chrome p= oor areas with the areas low in chrome becoming attacked. The grain boundar= ies are then dissolved and become non existent. There are three ways to com= bat this:

    * Anneal the stainless after it has been hea= ted in this sensitive range. This means bringing it up to the proper anneal= ing temperature and then quickly cooling it down through the sensitive temp= erature range to prevent the carbides from forming.
    * When possible use low carbon content stainless if you intend to do any wel= ding on it. A carbon content of less than 0.3% will not precipitate into a = continuous film of chrome carbide at the grain boundaries. 316L is as good = example of a low carbon stainless steel.
    * Alloy the metal= with a strong carbide former. The best is columbium, but sometimes titaniu= m is used. The carbon will now form columbium carbide rather than going aft= er the chrome to form chrome carbide. The material is now said to be "stabi= lized"

They could have used a filler that made post treatment unnece= ssary, or they could have annealed it.  The link you gave says it is m= ade of T304.  Depending on which T304, the carbon ranges from .03 to .= 08%, so it may not be an issue at all.


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