ArceneauxR. L.ReidJ. D., Improvements in the Dimethylol Monocarbamate Wash-Wear Finish, Am. Dyestuff Reptr. 51, 800–801 (1962).
2.
GagliardiD. D.JutrasW. J.Jr.ShippeeF. B., Vapor-Phase Reactions on Cotton. Part I: General Considerations and Partial Results, Textile Res. J. 36, 168–177 (1966).
3.
MehtaS. B.ParikhD. V.NanjundayyaC., The Dependence of Crease Recovery on Location of Cross Links, Ibid., 761–762.
4.
Ibid., Resin Finishing In Situ: Development of a Process for Imparting a Crease-Resistant Finish to Cotton Fabrics, J. Textile Inst. 58, 279–292 (1967).
5.
ReidJ. D.ReinhardtR. M.BrunoJ. S., Some Aspects of the Preparation of Dimethylol Monoalkyl Carbamates and their Reaction with Cellulose, Am. Dyestuff Reptr. 54, P485–P491 (1965).
6.
A.S.T.M. F 1577–66, Requirements for vibroscope measurements.
7.
DartS. L.PetersonL. E., Strain-Gage System for Fiber Testing, Textile Res. J. 19, 89–93 (1949).
8.
DartS. L.PetersonL. E., An Improved Vibroscope, Textile Res. J. 22, 819–822 (1952).
9.
GonsalvesV. E., Denier-Strength Determinations. Determinations of Denier and Strength of Single Filaments by Vibroscope and their Tensile TesterTextile Res. J. 17, 369–375 (1947).
10.
HoldawayH. W., “Evaluation Tests of a Fixed Frequency Vibroscope,”Rev. Sci. Instr. (In press).
MontgomeryD. J.MillowayW. T., Vibroscopic Method for Determination of Fiber Cross-Sectional Area, Textile Res. J. 22, 729–735, (1952).
14.
MortonD. H., The Variation of Fineness Within Samples of Various Staple Fibers, J. Textile Inst. 47, T422–T429 (1956).
15.
PattD. H., Findings and Recommendations on the Use of the Vibroscope, Textile Res. J. 28, 691–700 (1958).
16.
StearnA. E., Effect of Polarizing Voltage on the Frequency of Electrostatically Driven Fibers in Vibroscope measurements, Rev. Sci. Instr. 38, 1672–1674 (1967).
17.
StuartI. M., Amplitude Corrections for Vibroscope Measurements, Brit. J. Appl. Phys. 10, 219–225 (1959).
BoucherR. M. G.StaplesM. L., Sonic and Ultrasonic Irradiation of Cotton Fibers, Part I: Irradiation in Liquid Phase; Part II: Airborne Irradiation, Textile Res. J. 37, 621–643 (1967).
20.
FeldmanL., Theoretical Trajectory Studies of Light Bodies in Non-Uniform Two Dimensional Flows, Textile Res. J. 36, 809–813 (1966).
21.
DeLucaL. B., A Method of Automating the West Point Cohesion Tester, Textile Res. J. 35, 476–477 (1965).
22.
RaoC. P., Mercerizing Action of Sodium Hydroxide Solution on Cotton Fiber: Note on a New Theory, Indian Textile J. 73, 230–231 (1963).
23.
RaoC. P., Further Note on the Mercerizing Action of Sodium Hydroxide Solution on Cotton Fiber, Indian Textile J. 74, 278–279 (1964).
24.
RaoC. P., Mercerizing Action of Sodium Hydroxide Solution on Cotton Yarn and Fabric, Indian Textile J. 76, 317, 325 (1966).
25.
BarkerR. H.VailS. L., The Mechanism of Formation and Hydrolysis of Cross Links in Cellulose, Textile Res. J. 37, 1077–1078 (1967).
26.
ChanceL. H.LeonardE. K.ReevesW. A., The Treatment of Cotton with Formaldehyde in Calcium Chloride Solutions, Textile Res. J. 32, 481–488 (1962).
27.
DatyeK. V., Studies in the Reaction of Formaldehyde with Unmodified, Modified, and Dyed Cellulose. Part I: Kinetics of Reaction of Formaldehyde with Cotton Cellulose, Textile Res. J. 32, 825–833 (1962).
GuthrieJ. D., Estimation of the Length of the Oxymethylene Bridges Introduced into Cotton Cellulose by Formaldehyde and by Methylenedisulfuric Acid, Textile Res. J. 37, 40–45 (1967).
31.
LewinM.WeinsteinS., Oxidation of Formaldehyde—Crosslinked Cotton, Textile Res. J. 37, 751–763 (1967).
32.
MillsJ. A., Biochem. Biophys. Res. Comm. 6, 418 (1961–62).
33.
NealeS. M.SahaP. K., Measurement of Daiman Potentials with Dyed Cellulose and Aqueous Salt Solutions, J. Soc. Dyers Col. 73, 381–385 (1957).
34.
NealeS. M.StrandingP. T., Proc. Roy. Soc. A213, 530 (1952).
35.
O'BrienS. T.van LooW. J.Jr., Inter- and Intra-molecular Bonding in the Reaction of Wrinkle-Resistant Finishes with Cellulosic Fabrics, Textile Res. J. 31, 340–348 (1961).
36.
ParikhR. S., Reaction Mechanism Involved in Cross-Linking Formaldehyde and RCH2OH with Cellulose, Testile Rex. J. 37, 538 (1967).
37.
ReevesW. A., Effects of the Nature of Cross Links on the Properties of Cotton Fabrics, J. Textile Inst. 53, P22–P36 (1962).
38.
RoffW. J., Study of the Sorption of Formaldehyde from Aqueous Solution by Cellulose, J. Textile Inst. 50, T353–T372 (1959).
39.
RoffW. J., Reaction Between Cellulose and Aqueous Formaldehyde, J. Textile Inst. 54, T281–T296 (1963).
40.
ZiffleM. H.McKelveyJ. B.BeneritoR. R.BerniR. J., Changes in Fine Structure of Cotton Modified with Butadienediepoxide—Spectral and Microscopical Studies, Textile Res. J., 36, 389–401 (1966).
41.
ModyR. K.JoshiA. D., Proc. Joint Technolog. Conf. ATIRA, BTRA and SITRA, 2, 59, 1960.
42.
MortonW. E.SummersR. J., Fiber Arrangement in Card Slivers, J. Textile Inst. 40, P106–P116 (1949).
43.
WakankarV. A.BhaduriS. N.RamaswamyB. R.GhoshG. C., “Some Studies on the Formation of Hooks in Carding,”Textile Res J. 31, 931 (1961).
44.
CumberbirchR. J. E.SpeddingH., J. Appl. Chem. 12, 83–85(1962).
45.
KenneyD.LernerL. L., Unpublished Observations.
46.
RandleR. R.WhiffenD. H., “Molecular Spectroscopy,”London, Institute of Petroleum, 1955, p. 111.
47.
GagliardiD. D.JutrasW. J.Jr.ShippeeF. B., Vapor-Phase Reactions on Cotton. Part I; General Consideration and Partial Results, Textile Res. J. 36, 168–177 (1968).
