Surface treatment of polymers for adhesive bonding

Schonhorn, H.; Hansen, R. H.

doi:10.1002/app.1967.070110809

Cited by 356 publications

(118 citation statements)

References 12 publications

Supporting

Mentioning

116

Contrasting

Order By: Relevance

“…theory, since the electrical field amplitude can be assumed to be constant across this thin layer (thickness d) (5). The O.D.,-, value for a single reflection will then be given by substituting the values of (Ic, for the thin layer case, expression [4], in expression [2]. The O.D.,,,, value will, however, begiven by substituting the values of (Ic for an infinite substrate, expression [3], in expression [2].…”

Section: / \mentioning

confidence: 99%

“…Kd \ value leads to a [ C-C/ of 5 M after a 100 s / -\I corona. Based on the gel content, the surface film thickness produced by glow discharge treatment of polyethylene in inert gases (Hz, He, and Ne) has been estimated to range from 300 A (1 s exposure) to 2000 A (100 s exposure) and to be independent of the nature of the gas (2). It may seem paradoxical that thin surface layers (possibly less than 100 A) can be studied in the presence of surface irregularities, such as occasional calendering marks, which may be as great as 1000 A in depth.…”

Section: / \mentioning

confidence: 99%

“…f r o m excited g a s molecules t o t h e polymer surface (2). This transfer was proposed to generate H a t o m s which diffused into t h e polymer a n d caused the observed penetration of t h e glow discharge effect ( u p t o l o 4 A).…”

Section: / \mentioning

confidence: 99%

“…Some glow discharge treatments (i.e. plasma at about 2.0-0.2 Torr) improve the adhesive bonding properties of polyethylene surfaces (2,3). The nature of the chemical and physical changes which occur during various types of plasma treatment of polyolefins has not yet been fully established, although the changes are reported to be confined to the surface layer of the substrates (2,4).…”

Section: Introductionmentioning

confidence: 99%

“…The reflected beam usually interacts strongly with a surface layer of the substrate which can vary from 0.1 to 4.0 p (5). Attenuated total reflection spectroscopy has been employed to show qualitatively that surface changes have occurred during glow discharge treatment of polymers (2,6). The quantitative use of a.t.r., however, has been limited by difficulties involved in the comparison of spectra recorded under various reflection conditions.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Surface studies by attenuated total reflection spectroscopy. I. Corona treatment of polypropylene

Carlsson¹,

Wiles²

1970

Can. J. Chem.

103

View full text Add to dashboard Cite

The chemical changes produced by brief corona treatments of polypropylene films have been studied by attenuated total reflection (a.t.r.) infrared spectroscopy. Surface layers of different thicknesses were investigated by varying the reflection conditions. Changes in the surface spectra were quantitatively compared by the use of an internal correction method which compensated for irreproducible experimental conditions. Corona treatment in a nitrogen atmosphere produced thin surface layers (less than 500 A) of C-C unsaturation. Nitrogen derivatives were not detected in the surface. Corona treatment in oxygen caused surface changes which depended markedly on the corona conditions owing to the generation of ozone in the discharge zone. At low ozone concentrations, both unsaturation and oxidation were found in surface layers of under 500A thickness. At higher ozone concentrations, extensive oxidation occurred at appreciable depths into the polymer (several microns). An oxygen corona appears to result in essentially the same surface changes as does a nitrogen corona treatment, followed by exposure to ozone.

show abstract

Section: / \mentioning

confidence: 99%

Section: / \mentioning

confidence: 99%

Section: / \mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Surface studies by attenuated total reflection spectroscopy. I. Corona treatment of polypropylene

Carlsson¹,

Wiles²

1970

Can. J. Chem.

103

View full text Add to dashboard Cite

show abstract

Hydrocarbon barrier performance of plasma-surface-modified polyethylene

Lin

Yasuda

1996

J. Appl. Polym. Sci.

View full text Add to dashboard Cite

SYNOPSISPlasma modifications were applied on the inner surfaces of high-density polyethylene bottles. The methods applied include Ar gas plasma treatment, plasma polymerization with tetrafluoroethylene (TFE), trimethylsilane (TMS) + O2 (1 : 4), CH4, and CzHz monomers, plasmainduced acrylic acid grafting polymerization, and C,H, plasma polymerization plus acrylic acid plasma polymerization. Solvent weight-loss data are reported primarily for the nhexane/HDPE bottle system. The best permeation reduction factor of 0.03 was obtained with CZH2 plasma polymerization a t a high energy level followed by acrylic acid plasma polymerization a t a low energy level. CzHz plasma polymerization a t an energy level of 10" J/kg and C,H, plasma polymerization followed by acrylic acid grafting polymerization offer a similar permeation reduction factor of 0.07. A combination of improved surface polarity and tightness of the surface is responsible for remarkable reductions in permeation rates.

show abstract

Polyethylene plasma fluorination and permeability relationships to methanol‐gasoline mixtures

Serpe

Huiban

Lynch

et al. 1996

J. Appl. Polym. Sci.

View full text Add to dashboard Cite

SYNOPSISIn the case of cold plasma fluorination we analyzed effects of the main processing conditions (power, exposure time, nature of gas, and number of fluorinated faces) on gasoline permeability of polyethylenes. Optimization of processing conditions gave us a permeability reduction of 30% compared to untreated polyethylene. XPS analysis of fluorinated specimens before permeation experiments shows the PE to be highly fluorinated at the surface with a F/C ratio up to 2. Fluorination appeared to be homogeneous over the disk surface with a concentration depth profile showing a step decline below the extreme surface. However, significant fluorination is achieved only up to a few tens of nanometers (20 to 30). A more interesting effect is the evidence for chain breaking during the process suggests the creation of short chain segments at the surface. These segments would be highly fluorinated but easily leeched out by the diffusing molecules. Leeching seems more important with alcohol containing gasolines. These data show clearly that fluorination by cold plasmas in the conditions under studies has not a permanent effect.

show abstract

Surface treatment of polymers for adhesive bonding

Cited by 356 publications

References 12 publications

Surface studies by attenuated total reflection spectroscopy. I. Corona treatment of polypropylene

Surface studies by attenuated total reflection spectroscopy. I. Corona treatment of polypropylene

Hydrocarbon barrier performance of plasma-surface-modified polyethylene

Polyethylene plasma fluorination and permeability relationships to methanol‐gasoline mixtures

Contact Info

Product

Resources

About