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Sommaire du brevet 1264505 

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  • lorsque le brevet est émis (délivrance).
(12) Brevet: (11) CA 1264505
(21) Numéro de la demande: 1264505
(54) Titre français: PROCEDE DE FABRICATION DE POLYAMIDES RESISTANT AUX TACHES
(54) Titre anglais: METHOD FOR PRODUCING STAIN RESISTANT POLYAMIDE FIBERS
Statut: Durée expirée - après l'octroi
Données bibliographiques
(51) Classification internationale des brevets (CIB):
  • D06M 15/41 (2006.01)
(72) Inventeurs :
  • GRESCHLER, IMRICH (Etats-Unis d'Amérique)
  • MALONE, CREIGHTON PAUL (Etats-Unis d'Amérique)
  • ZINNATO, ARMAND PHILIP (Etats-Unis d'Amérique)
(73) Titulaires :
  • INVISTA TECHNOLOGIES S.A.R.L.
(71) Demandeurs :
  • INVISTA TECHNOLOGIES S.A.R.L. (Suisse)
(74) Agent: MARKS & CLERK
(74) Co-agent:
(45) Délivré: 1990-01-23
(22) Date de dépôt: 1987-02-10
Licence disponible: S.O.
Cédé au domaine public: S.O.
(25) Langue des documents déposés: Anglais

Traité de coopération en matière de brevets (PCT): Non

(30) Données de priorité de la demande:
Numéro de la demande Pays / territoire Date
829,232 (Etats-Unis d'Amérique) 1986-02-14
900,490 (Etats-Unis d'Amérique) 1986-08-26

Abrégés

Abrégé anglais


TITLE
METHOD FOR PRODUCING STAIN RESISTANT
POLYAMIDE FIBERS
ABSTRACT
Polyamide fibers are made stain resistant by
treating them with a sulfonated naphthol- or sulfonated
phenol-formaldehyde condensation product. Applying the
stain-resist compounds at pH values of between 1.5 and
2.5 renders them stable to yellowing upon exposure to
agents in the environment such as NO2.

Revendications

Note : Les revendications sont présentées dans la langue officielle dans laquelle elles ont été soumises.


CLAIM
1. In a process for applying sulfonated
phenol-formaldehyde or sulfonated naphthol-formaldehyde
condensation products to polyamide textile articles to
render them stain resistant, the improvement comprising
applying the conden6ation products at a pH of between
1.5 and 2.5 whereby yellowing of the treated articles
due to exposure to NO2 in the atmosphere is reduced.
2. The proce6s of Claim 1 wherein the textile
article is a dyed polyamide fiber carpet.

Description

Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.


5(~5
RD--4319--A
TI TLE
METHOD FOR PRO~)UCING STAIN RESISTANT
POLYAMI DE F I E~EP~S
3ACRGROUND OF T}IE INVESNTION
S -- ~
Various ~ethods have be~n tried in the textlle
industry to provide 50il and/or ~tain resistant f$bers
or fabrics, upholstery, and carpets. These ~ethod~
include treating of the fiber~ wi~h fluorochemical
1~ compound~, ~ilicon compound~, or acrylic compound~. It
is also known that resi~tance ~o undesired dyeing can be
imparted to ~ f~ber by applying a dye-r~sist agent to a
previously dyed or undyed fiber. Many dye-re~ist ayents
including 6ulfonated naphthol- or sulfonDted phenol-
formaldehyde condensation products which work well onpolya~ide 6ubstrates are ~vailable. These condencation
products, however, have been found to have a disadvan-
tage in that ~hey yellow on a fiber substrate when
expo~ed to environmental conditions such as the presence
of N02. This problem is e6pecially noticeable in light
dye shade textile articles.
SUMMARY OF THE INVENTION
In a process for applying sulfonated naphthol-
or sulfonated phenol-form~ldehyde condens~tion products
to polyamide ~extile articles to render them ~tain
resi6tant, the improve~ent comprising applying the
condensation products ~t ~ p~ of between 1.5 and 2.5
whereby yellowing of the treated articles due to
exposure to N02 in the atmosphere is reduc~d.
DET~ILED DESCRIPTION OF THE INV~NTION
~ he present invention provides for a dra~atic
reduotion in the undesired yellowing of polyamide
t~xtile article~ containing ~ulfonated napthol- or
sulfonated phenol-formaldehyde condensation products
Ireferred to herein as "condensation products~ or
"stain-resist agents"), the yellowinq being due to
D~4319-~ exposure of the treated articles to environmen~al

S~S
conditions such as the presence of N02 in the
atm~phere.
Advantageously, when these condensation
products ~re ~pplied to dyed textile 6ubstrates they act
as resi~t agents against ~ubsequent staining by
accidental ~pills of certain foodstuffs ~uch as coffee,
red wine, and ~oft drink~. The latter often contain
dyes, such ~ Food Drug & Cosmetic (FD&C~ Red Dye No. 40.
For example, when a liquid containing FD&C Red Dye No.
0 40 i6 6pilled OfltO a polyamide 6ubstrate, it color5
(i.e., 6t~ins) the ~ub~trate to a ~ignific~nt degree;
however~ if the ~ubstrate i~ ~ir~t treated with a
stain-resist agent, then the spilled dye does not
permanently ~tain the carpet, as the undesired dye can
be rin6ed out.
Stain-resi~t agents effective with polya~ide
~ubstrate~, fro~ the class of sulfonated napthol- or
sulfonated phenol-formaldehyde conden6ation products are
described in U.S. Patent 4,501,591 and in other p~tent
and trade literature. Such stain-re~i6t agent~ are
typified by commercially availabl* products such as
Erionol~ NW ~Ciba-Geigyt, Intratex ~ N (Crompton ~
~nowles), and Mesitol~ NBS (Mob~y). These product6 are
601d in the textile trade for use a6 dye-resist agents
or as ~gent~ to improve wetfastne~s in the bath
proce66ing of textile goods and ~re recommended for uee
at ~n acidic pH range of about 4 to 6.
Polyamide ~ubstrates which have been treated
with the aforementioned ~tain-re~ist agent~, although
3~ having excellent ~tain re&istance propertie~, demon-
~trate a di~tinct disadvantage in that they yellow upon
exposure to certain environmental condition~ ~uch a6 N02
which is commonly foun~ in the atmosphere a~d i 6
especially abundant in urban areas. ~hi~ yellowing can
be severe enough to prevent u~e of the ~tain-re~ist
agents on light dye shade textile articles, which are

s~s
th~se articles where a ~tain resistance feature would be
most desirable.
The present process provide~ a method for
applying stain-resist agents to polyamide substrates so
that yellowing of these substrates is minimized. lt
inv~lves the application of the stain-re~ist ag~nt to a
polyamide textile ~ubstrate at a pH of between 1.5 and
2.5 r~ther than ~t pH value6 of 4 to 6. A~ shown by
Example 5 by applying the tain-resist agents in this
manner, the textile 6ubstrate~ are ~ignificantly m~re
protected again~t subsequent yellowinq due to exposure
to N02 in the atmosphere. In addition, the application
of the stain-resist agent~ at pH below about 2.5 re~ults
in greater ad~orption of the agent6 onto the polyamide
than occurs at higher pH ranges. Therefore, not only i~
yellowing reduced by the method of this propos~l, but
also there i6 realized an additional advantage in that
the 6tain-re6ist ~gent~ can be applied in a ~ore
efficient and cost-effective manner due to the greater
adsorption of the agents at lower pH values.
In a preferred embodiment of this invention, a
textils article (e.g., a carpet) would fir~t be dyed to
the de~ired ~hade, rinsed, and then 6aturated for a
pçriod of time (20 minute~) with a 601ution tliqu~d
ratio o~ 30:1) cont~lning ~ sulfonated naptho}- or
phenol-formaldehyde condens~tion product (to give a
final concentration of 0.3-1.0% by weight on the
article) where the solution pH is ~ and the temperature
is 170C. The article would then be rinsed and further
proces6ed as nece sary.
This invention i applicable to any polyamide
textil2 substrate. These 6ubstrates include fabric~,
upholstery and carpetsc In practice, the substrate is
treated with the stain-resi6~ agent in a bath of pH of
between 1.5 and 205. Any acid may be used to lower the
pH of the bath, however, noncorrosive acids ~uch a6

5~
6ulfamic, phosphoric, or ~itric acid are preferred. It
i5 al60 preferred that the textile articles be dyed or
pigmented prior to treatment with the stain-resist
agents. The concentration of stain-resist agent in the
treating bath and the temperature of treatment ~re not
critical. Additional fiber treat~ent compounds may be
pre~ent in the bath.
TEST METHODS
STAIN TEST
A liquid solution for staining carpets is
prepared by dis~olving FD&C Red Dye No. 40 in water at a
concentration of 0.1 g/liter~ Alternatively, a co~mer-
cially available cherry flavored ~ugar sweetencd
beverage powder containing FD&C Red Dye No. 40 i6
dissolved in water to provide a solution containing 0.1
g/liter FD&C Red Dye No. 40. A 30 ~1 a~ount of the
~taining ~olution is pl~ced in a 3" X 4" aluminum pan.
A carpet constructed from polyamide fiber is used in
this test, however, any textile ~aterial containing
polyamide fiber could be used. A 2-1/2" X 3-1/2" piece
of carpet t~ be tested i6 fully immersed face (tuft~)
down into the stai~ing solution for one hour. The
carpet ~mple i~ then removed from the staining
solution, rin6ed thorough~y with tap water, ~nd drled in
an ov~n for lS ~inutes at 212nF. ~he 6tain resi~tance
of the carpet i~ visually deter~ined by the amount of
red color imparted to the carpet by the staining
solution. ~ carpet rated as stain resis~ant has no red
color or only a slight trace of color after &t~ining and
rinsing. ~ carpet rated a~ not ~tain resistan~ has a
deep red color after 6taining and rinsing.
N02 YELLOWING T~:ST
The ~ample to be tested is exposed to 2 ppm N02
at ~ relative humidity of R3 + 5% and 104 + 9F for
24 hours (1 cycle) in a gas exposure cabinet (Model
GE-15, Atlas Devices Company, Chicago, Illinois). Color

45~
s
change i~ measured on a Macbeth~ 1500 Colorimeter
utilizing Illuminant C. The NO2 exposed sample i~
compared to an unexposed ~ample and the result i~
reported as ~b+ (yellowness) with increasinq positive
values of b corresponding to increased values of
yellowing. Carpet ~ample~ to be te~ted are placed into
a round sample holder (7/8" diameter) with the tufts
facing a glass coYer. A weight of 10 pounds i6 ~pplied
to the carpet sa~ple in the holder, pressing the tuft~
against the glass cover. The weight is conveniently
applied to the ~ample by using an AATCC Perspiration
Tester apparatus (~ee ~ATCC Test Method 15-1979) in
combination with a cylindrical piston which fit6 within
the ~ample holder. The ab+ value of the compressed
sample i5 read through the glass cover of the sampl2
holder.
AD~;ORPTION OF THE STAIN-RESIST AGENT ONTO FI~ER
Exhaustion o~ the ~tain-resist agent from the
treatment bath onto the polyamide fiber substrate is
reported as % exhaustion and determined by mea~uring the
light absorbance at a wavelength of 293 nm of the bath
before and after treat~ent.
EXAMPLE 1
A 6B filament, trilobal cro~s-~ection (1140
total denier) drawn and bulked continuous filament nylon
6,6 yarn wa~ produced by a conventional proce s. Two of
the~e yarns were plied and twisted to provide a yarn
having a balanced twist of 3.5 turn~ per inch (tpi).
~he resulting yarn was then heatset in a Superba
heatset appar~us (270F). A cut pile tufted carpet was
csnstructed from the heatset yarn to the following
~pecifications: 37 oz./6q. yd., 3/4" pile height, 3/16
gauge, 44 ~titches/4 inches. This carpet was dyed to a
light blue shade u6ing a conventional batch dye process
and dye auxiliaries (color formu}a was the follow;ng and

~2~;~50~
based on weight of carpet: 0.0022% C.I. Acid Yellow
219, 0.0021% C.I. Acid Red 361, 0.0219% C.I. Acid slue
277; pH - 6.0). After dyeing the carpet was rinsed and
then treated in a bath containing the stain-resi~t
agent, Intr~tex~ N liquid. This bath was prepared by
diluting the ~tain-resi~tant agent with water. An
amount of Intratex~ N liquid equal to 2~ of the weight
of carpet to be treated was employed and the bath
~djus~ed to a pH of Z using ~ulfamic acid (about 0.5-1.0
g/liter). The carpet was placed in the bath at a liquor
ratio of 30:1 for 20 minutes at 170~F and then rinsed.
The carpet wa~ removed rom the bath and dried at 250F.
The ~ exhaustion of the stain-resist ~gent from the bath
was ~easured to be 79%. The carpet was testsd for ~tain
re6istance by the ~ethod de~cribed ~bove and found to be
~tain resistant. Yellowing to NO2 was tested by the
method described above. The ~b+ value was 3.39.
Elimination of the stain-resi~t t~eatment resulted in a
~b+ value of 0.B5.
EXAMPLE 2 (CONTROB)
A carpet wa& prepared and treated as in Example
1, except that the pH of the treating ~ath was adjusted
to pH - 5 u~ing an ~cetic acid/sodium acetate buffer.
~he % exhau~tion was determined to be only 67%. This
wa~ ~ lower exhau~tion rate than that mea6ured when
u~ing a bath at pH ~ 2. ~he carpet was treated ~or and
found to be 6tain resistant. In the NO2 expo6ure test,
the carpet yellowed more than that of Example 1, having
a ~b+ value of 4.05.
EXAMPLE 3
A carpet was prepared and treated as in ~xample
1, except that the 6tain-re~ist agent u~ed wa~ Me~itol~
NBS powder. The treating solution wa~ prepared by
dis601ving the ~tain-resi~t agent in water to provide a
concenkration of 0.56% of the Mesitol~ NBS powder based
on weight of the carpet to be treated. The pH of the

5(~5
bath was then adjusted to pH ~ 2 with ~ulfamic acid.
The % exhaustion was measured to be 72%. The carpet was
tested for and found to be resistant to staining and
also the ~b+ value was 2.83.
I~X~MPLE q ( CONTROL )
A carpet was prepared and treated as in ~xample
3, except that the pB of the stain-resist treating
~olution was adjusted ~o pH ~ 5 using an acetic
acid/60dium acetate buffer. The % exhaustion wa~ found
to be only 61%. The carpet was treated for and found to
be stain resistant. In the No2 exposure te~t, the
carpet yellowed ~ore than that of Example 3, having a
Qb~ value of 4.17.
EXAMPLE 5
A carpet of the same construction as that of
Example 1 was put through a mock-dye bath procedure in
which the dye process wa carried out without a dye
present. Six carpet samples were then treated with
Mesitol~ ~BS by the 6ame procedure as in Example 1,
except that the pH of the treatment solutions was varied
over the range p~ ~ 2 to pH - 5. The carpet samples
were tested for their resistance to N02 yellowing by the
procedure described e3rlier, except that the 6amples
wer~ exposed for 2 cycles. The results of the N02
yellowing test were 6ummarized in Table 1 and Figure 1.
A significant lowering of the ~b+ value is seen when the
stain-resist agent is applied at pH 2.5 vs. 3Ø

4~505
TABLE 1
-
~b+ Value
P~
2.0 7-7
2.5 ~ 57
10 27
3.5 10.~5
10 67
5.0
~0

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États administratifs

2024-08-01 : Dans le cadre de la transition vers les Brevets de nouvelle génération (BNG), la base de données sur les brevets canadiens (BDBC) contient désormais un Historique d'événement plus détaillé, qui reproduit le Journal des événements de notre nouvelle solution interne.

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Historique d'événement

Description Date
Inactive : TME en retard traitée 2005-02-15
Lettre envoyée 2005-02-02
Lettre envoyée 2005-02-02
Lettre envoyée 2005-01-24
Lettre envoyée 2004-09-13
Lettre envoyée 2004-09-13
Accordé par délivrance 1990-01-23
Inactive : Périmé (brevet sous l'ancienne loi) date de péremption possible la plus tardive 1987-02-10

Historique d'abandonnement

Il n'y a pas d'historique d'abandonnement

Titulaires au dossier

Les titulaires actuels et antérieures au dossier sont affichés en ordre alphabétique.

Titulaires actuels au dossier
INVISTA TECHNOLOGIES S.A.R.L.
Titulaires antérieures au dossier
ARMAND PHILIP ZINNATO
CREIGHTON PAUL MALONE
IMRICH GRESCHLER
Les propriétaires antérieurs qui ne figurent pas dans la liste des « Propriétaires au dossier » apparaîtront dans d'autres documents au dossier.
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Description du
Document 
Date
(aaaa-mm-jj) 
Nombre de pages   Taille de l'image (Ko) 
Page couverture 1993-09-15 1 17
Abrégé 1993-09-15 1 11
Revendications 1993-09-15 1 12
Dessins 1993-09-15 1 11
Description 1993-09-15 8 283
Avis concernant la taxe de maintien 2005-03-09 1 172
Quittance d'un paiement en retard 2005-03-09 1 165
Quittance d'un paiement en retard 2005-03-09 1 165
Correspondance 2004-07-08 8 573
Taxes 1996-12-18 1 88
Taxes 1995-12-13 1 94
Taxes 1994-11-24 2 102
Taxes 1993-12-02 1 41
Taxes 1992-12-16 1 80
Taxes 1991-12-18 1 96