superFilms

Created and maintained by Superlabs, The Autonomous Science Lab @ NCSR Demokritos

Comparing 9 materials

✓ Comparing

Gelatin, tested according to Ph. Eur.

A protein derived from collagen, widely used to form transparent, flexible, and biodegradable films with good oxygen barrier properties.

Property	AVG	± σ	Unit
Young's Modulus	2.79	0.33	GPa
Elastic Fit R²	0.9959	0.0022
Tensile Strength	73.31	8.94	MPa
Stress @ Break	71.83	9.62	MPa
Strain @ Break	3.9	1.0	%

75/25+ Compare

carboxmethyl celluloseGelatin, tested according to Ph. Eur.

A biodegradable film developed from two natural polymers. It provides good mechanical stability, antimicrobial properties, and moderate flexibility. Due to its biological origin and functional properties, it is often used in food preservation films, medical coatings, and biodegradable packaging.

Property	AVG	± σ	Unit
Young's Modulus	2.74	0.15	GPa
Elastic Fit R²	0.9952	0.0028
Tensile Strength	55.86	2.54	MPa
Stress @ Break	55.85	2.54	MPa
Strain @ Break	4.5	2.1	%

50/50+ Compare

carboxmethyl celluloseGelatin, tested according to Ph. Eur.

Property	AVG	± σ	Unit
Young's Modulus	3.41	0.56	GPa
Elastic Fit R²	0.9993	0.0004
Tensile Strength	63.81	8.51	MPa
Stress @ Break	63.81	8.51	MPa
Strain @ Break	3.6	1.0	%

91/9+ Compare

Gelatin, tested according to Ph. Eur.1,2,3-Propanetriol, Glycerin, Glycerol

A sustainable film made from plant starches such as potato, corn, or cassava. Through plasticization and polymer blending, the material achieves improved flexibility and mechanical resistance. The film decomposes naturally in composting environments and is widely explored for disposable packaging and agricultural applications.

Property	AVG	± σ	Unit
Young's Modulus	1.77	0.33	GPa
Elastic Fit R²	0.9993	0.0005
Tensile Strength	44.32	9.26	MPa
Stress @ Break	42.05	9.42	MPa
Strain @ Break	10.6	6.3	%

71/29+ Compare

Gelatin, tested according to Ph. Eur.1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	0.13	0.03	GPa
Elastic Fit R²	0.9990	0.0006
Tensile Strength	4.21	0.83	MPa
Stress @ Break	4.12	0.89	MPa
Strain @ Break	43.9	9.3	%

80/20+ Compare

Gelatin, tested according to Ph. Eur.1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	0.64	0.08	GPa
Elastic Fit R²	0.9981	0.0016
Tensile Strength	16.18	0.78	MPa
Stress @ Break	15.34	0.87	MPa
Strain @ Break	10.2	2.7	%

100✓ Comparing

carboxmethyl cellulose

A biodegradable film developed from chitosan, a natural polymer derived from crustacean shells. It provides good mechanical stability, antimicrobial properties, and moderate flexibility. Due to its biological origin and functional properties, it is often used in food preservation films, medical coatings, and biodegradable packaging.

Property	AVG	± σ	Unit
Young's Modulus	2.61	0.24	GPa
Elastic Fit R²	0.9966	0.0032
Tensile Strength	55.92	10.34	MPa
Stress @ Break	55.87	10.33	MPa
Strain @ Break	12.1	5.5	%

80/20+ Compare

carboxmethyl cellulose1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	1.09	0.07	GPa
Elastic Fit R²	0.9990	0.0005
Tensile Strength	23.20	3.21	MPa
Stress @ Break	23.12	3.17	MPa
Strain @ Break	13.5	3.5	%

50/50✓ Comparing

Hydroxyethyl-cellulosecarboxmethyl cellulose

This organic film is produced from natural cellulose fibers extracted from plant biomass. It offers high transparency, good tensile strength, and natural biodegradability. The film has excellent gas permeability and is suitable for food packaging, coatings, and environmentally friendly wrapping materials.

Property	AVG	± σ	Unit
Young's Modulus	1.68	0.14	GPa
Elastic Fit R²	0.9985	0.0014
Tensile Strength	33.80	5.03	MPa
Stress @ Break	33.79	5.04	MPa
Strain @ Break	10.2	3.5	%

100✓ Comparing

Chitosan (200-600mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 80.0 %

Property	AVG	± σ	Unit
Young's Modulus	3.81	0.62	GPa
Elastic Fit R²	0.9986	0.0016
Tensile Strength	69.59	10.19	MPa
Stress @ Break	69.46	10.28	MPa
Strain @ Break	12.4	5.9	%

100+ Compare

Hydroxyethyl-cellulose

Property	AVG	± σ	Unit
Young's Modulus	0.93	0.13	GPa
Elastic Fit R²	0.9986	0.0027
Tensile Strength	21.04	3.51	MPa
Stress @ Break	21.04	3.51	MPa
Strain @ Break	11.3	4.3	%

100✓ Comparing

Poly(vinyl alcohol)(146,000-186,000, 99+% hydrolyzed)

Property	AVG	± σ	Unit
Young's Modulus	1.67	1.00	GPa
Elastic Fit R²	0.9970	0.0023
Tensile Strength	38.64	8.28	MPa
Stress @ Break	31.73	7.95	MPa
Strain @ Break	97.8	53.0	%

100✓ Comparing

Poly(vinyl alcohol)(Mw 13,000-23,000, 98% hydrolyzed)

Property	AVG	± σ	Unit
Young's Modulus	1.17	0.30	GPa
Elastic Fit R²	0.9966	0.0032
Tensile Strength	27.04	2.70	MPa
Stress @ Break	25.75	2.86	MPa
Strain @ Break	46.9	12.5	%

100✓ Comparing

Alginic acid sodium salt from brown algaeAlginSodium alginate

Property	AVG	± σ	Unit
Young's Modulus	3.85	0.33	GPa
Elastic Fit R²	0.9979	0.0021
Tensile Strength	60.32	7.65	MPa
Stress @ Break	60.08	7.51	MPa
Strain @ Break	7.9	2.4	%

80/20+ Compare

Chitosan (200-600mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 80.0 %1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.25	0.03	GPa
Elastic Fit R²	0.9978	0.0019
Tensile Strength	11.88	1.33	MPa
Stress @ Break	11.85	1.33	MPa
Strain @ Break	42.0	6.3	%

94/6+ Compare

Chitosan (200-600mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 80.0 %1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	2.52	0.12	GPa
Elastic Fit R²	0.9966	0.0018
Tensile Strength	41.46	1.52	MPa
Stress @ Break	37.20	2.45	MPa
Strain @ Break	5.5	1.9	%

75/25+ Compare

Chitosan (200-600mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 80.0 %1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.02	0.00	GPa
Elastic Fit R²	0.9939	0.0009
Tensile Strength	15.71	3.99	MPa
Stress @ Break	15.71	3.99	MPa
Strain @ Break	69.2	5.4	%

100+ Compare

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0 %

Property	AVG	± σ	Unit
Young's Modulus	2.30	0.45	GPa
Elastic Fit R²	0.9966	0.0023
Tensile Strength	44.39	4.39	MPa
Stress @ Break	42.03	4.14	MPa
Strain @ Break	7.2	4.0	%

71/29+ Compare

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0%1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.24	0.04	GPa
Elastic Fit R²	0.9980	0.0020
Tensile Strength	13.75	2.22	MPa
Stress @ Break	13.68	2.31	MPa
Strain @ Break	44.1	8.8	%

33/33/33+ Compare

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0 %L-Ascorbic acid, L-Threoascorbic acid, Antiscorbutic factor, Vitamin C1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.00	0.00	GPa
Elastic Fit R²	0.9911	0.0005
Tensile Strength	1.01	0.30	MPa
Stress @ Break	1.01	0.30	MPa
Strain @ Break	86.4	11.1	%

42/42/17+ Compare

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0 %L-Ascorbic acid, L-Threoascorbic acid, Antiscorbutic factor, Vitamin C1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.22	0.03	GPa
Elastic Fit R²	0.9985	0.0015
Tensile Strength	7.38	1.92	MPa
Stress @ Break	7.35	1.94	MPa
Strain @ Break	12.9	5.7	%

50/50✓ Comparing

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0 %Gelatin, tested according to Ph. Eur.

Property	AVG	± σ	Unit
Young's Modulus	2.46	0.18	GPa
Elastic Fit R²	0.9975	0.0012
Tensile Strength	57.53	3.10	MPa
Stress @ Break	55.76	3.47	MPa
Strain @ Break	4.7	0.7	%

67/17/17+ Compare

carboxmethyl cellulose1,2,3-PropanetriolGlycerinGlycerolLignin, alkali

Property	AVG	± σ	Unit
Young's Modulus	1.23	0.10	GPa
Elastic Fit R²	0.9989	0.0011
Tensile Strength	32.62	3.33	MPa
Stress @ Break	32.62	3.33	MPa
Strain @ Break	21.2	5.1	%

89/11+ Compare

carboxmethyl celluloseLignin, alkali

Property	AVG	± σ	Unit
Young's Modulus	2.91	0.33	GPa
Elastic Fit R²	0.9979	0.0027
Tensile Strength	54.37	3.89	MPa
Stress @ Break	54.30	3.99	MPa
Strain @ Break	6.7	1.3	%

80/20+ Compare

carboxmethyl cellulosePoly(ethylene glycol), Polyglycol, Polyethylene oxide, Polyoxy ethylene, PEG 400, PEG

Property	AVG	± σ	Unit
Young's Modulus	2.00	0.10	GPa
Elastic Fit R²	0.9957	0.0037
Tensile Strength	44.55	5.15	MPa
Stress @ Break	44.55	5.15	MPa
Strain @ Break	7.3	2.8	%

80/20+ Compare

carboxmethyl cellulose-

Property	AVG	± σ	Unit
Young's Modulus	2.89	0.11	GPa
Elastic Fit R²	0.9981	0.0004
Tensile Strength	48.69	14.22	MPa
Stress @ Break	48.65	14.22	MPa
Strain @ Break	2.3	0.7	%

80/20+ Compare

Property	AVG	± σ	Unit
Young's Modulus	2.29	0.09	GPa
Elastic Fit R²	0.9974	0.0031
Tensile Strength	41.02	4.28	MPa
Stress @ Break	41.02	4.28	MPa
Strain @ Break	3.6	1.4	%

80/20+ Compare

carboxmethyl celluloseL-Ascorbic acid, L-Threoascorbic acid, Antiscorbutic factor, Vitamin C

Property	AVG	± σ	Unit
Young's Modulus	3.73	0.42	GPa
Elastic Fit R²	0.9960	0.0021
Tensile Strength	39.27	8.28	MPa
Stress @ Break	39.27	8.28	MPa
Strain @ Break	1.3	0.2	%

91/9+ Compare

Property	AVG	± σ	Unit
Young's Modulus	2.96	0.52	GPa
Elastic Fit R²	0.9939	0.0041
Tensile Strength	40.15	8.91	MPa
Stress @ Break	40.07	8.85	MPa
Strain @ Break	1.8	0.7	%

83/8/8+ Compare

Gelatin, tested according to Ph. Eur.L-Ascorbic acid, L-Threoascorbic acid, Antiscorbutic factor, Vitamin C1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	1.89	0.09	GPa
Elastic Fit R²	0.9957	0.0035
Tensile Strength	46.37	4.19	MPa
Stress @ Break	45.01	4.83	MPa
Strain @ Break	5.3	1.2	%

67/17/17+ Compare

Gelatin, tested according to Ph. Eur.L-Ascorbic acid, L-Threoascorbic acidAntiscorbutic factor, Vitamin C1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	1.57	0.18	GPa
Elastic Fit R²	0.9987	0.0014
Tensile Strength	39.60	2.61	MPa
Stress @ Break	37.09	2.13	MPa
Strain @ Break	8.1	3.0	%

80/20+ Compare

Gelatin, tested according to Ph. Eur.Poly(ethylene glycol)PolyglycolPolyethylene oxidePolyoxy ethylenePEG 400PEG

Property	AVG	± σ	Unit
Young's Modulus	1.94	0.38	GPa
Elastic Fit R²	0.9984	0.0029
Tensile Strength	48.35	9.62	MPa
Stress @ Break	46.50	10.68	MPa
Strain @ Break	6.1	2.1	%

75/25+ Compare

Property	AVG	± σ	Unit
Young's Modulus	1.32	0.07	GPa
Elastic Fit R²	0.9995	0.0004
Tensile Strength	37.07	2.25	MPa
Stress @ Break	36.36	2.10	MPa
Strain @ Break	11.8	3.9	%

80/20+ Compare

Property	AVG	± σ	Unit
Young's Modulus	1.38	0.05	GPa
Elastic Fit R²	0.9988	0.0003
Tensile Strength	27.89	0.61	MPa
Stress @ Break	25.69	0.61	MPa
Strain @ Break	12.2	4.5	%

50/50+ Compare

Hydroxyethyl-celluloseGelatin, tested according to Ph. Eur.

Property	AVG	± σ	Unit
Young's Modulus	1.99	0.23	GPa
Elastic Fit R²	0.9976	0.0026
Tensile Strength	27.93	5.47	MPa
Stress @ Break	27.82	5.27	MPa
Strain @ Break	2.0	0.5	%

50/50+ Compare

Hydroxyethyl-celluloseAlginic acid sodium salt from brown algaeAlginSodium alginate

Property	AVG	± σ	Unit
Young's Modulus	1.83	0.12	GPa
Elastic Fit R²	0.9989	0.0021
Tensile Strength	28.49	3.08	MPa
Stress @ Break	28.46	3.07	MPa
Strain @ Break	4.1	1.1	%

67/33+ Compare

Hydroxyethyl-celluloseStarch from potato

Property	AVG	± σ	Unit
Young's Modulus	1.11	0.09	GPa
Elastic Fit R²	0.9979	0.0021
Tensile Strength	15.76	3.03	MPa
Stress @ Break	15.76	3.03	MPa
Strain @ Break	2.6	1.1	%

91/9+ Compare

Hydroxyethyl-cellulose1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.01	0.00	GPa
Elastic Fit R²	0.9955	0.0024
Tensile Strength	6.29	1.45	MPa
Stress @ Break	6.28	1.47	MPa
Strain @ Break	50.6	5.1	%

80/20+ Compare

Hydroxyethyl-cellulose1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.00	0.00	GPa
Elastic Fit R²	0.9983	0.0013
Tensile Strength	3.73	1.48	MPa
Stress @ Break	3.73	1.48	MPa
Strain @ Break	87.5	27.5	%

50/50+ Compare

Poly(vinyl alcohol) (Mw 13,000-23,000, 98% hydrolyzed)Alginic acid sodium salt from brown algaeAlginSodium alginate

Property	AVG	± σ	Unit
Young's Modulus	2.09	0.13	GPa
Elastic Fit R²	0.9973	0.0021
Tensile Strength	21.26	3.17	MPa
Stress @ Break	21.24	3.18	MPa
Strain @ Break	1.7	0.4	%

50/50+ Compare

Property	AVG	± σ	Unit
Young's Modulus	3.08	0.12	GPa
Elastic Fit R²	0.9980	0.0024
Tensile Strength	42.84	4.77	MPa
Stress @ Break	42.84	4.77	MPa
Strain @ Break	1.8	0.4	%

50/50+ Compare

Alginic acid sodium salt from brown algaeAlgin, Sodium alginatecarboxmethyl cellulose

Property	AVG	± σ	Unit
Young's Modulus	2.98	0.78	GPa
Elastic Fit R²	0.9953	0.0032
Tensile Strength	50.14	6.65	MPa
Stress @ Break	50.13	6.66	MPa
Strain @ Break	3.9	1.6	%

50/50+ Compare

Alginic acid sodium salt from brown algaeAlgin, Sodium alginateGelatin, tested according to Ph. Eur.

Property	AVG	± σ	Unit
Young's Modulus	3.28	0.34	GPa
Elastic Fit R²	0.9981	0.0025
Tensile Strength	61.60	3.83	MPa
Stress @ Break	61.50	3.85	MPa
Strain @ Break	3.1	0.5	%

77/23+ Compare

Property	AVG	± σ	Unit
Young's Modulus	1.38	0.11	GPa
Elastic Fit R²	0.9979	0.0032
Tensile Strength	28.67	4.77	MPa
Stress @ Break	28.66	4.77	MPa
Strain @ Break	7.9	4.5	%

91/9✓ Comparing

Starch from potato1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	1.62	0.08	GPa
Elastic Fit R²	0.9965	0.0048
Tensile Strength	25.18	0.67	MPa
Stress @ Break	24.89	0.35	MPa
Strain @ Break	2.4	0.3	%

50/50+ Compare

Starch from potato1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	0.01	0.00	GPa
Elastic Fit R²	0.9935	0.0016
Tensile Strength	1.39	0.69	MPa
Stress @ Break	1.38	0.69	MPa
Strain @ Break	27.2	1.2	%

67 /17/17+ Compare

Property	AVG	± σ	Unit
Young's Modulus	0.45	0.05	GPa
Elastic Fit R²	0.9977	0.0019
Tensile Strength	12.42	0.37	MPa
Stress @ Break	12.37	0.41	MPa
Strain @ Break	20.5	5.7	%

✓ Comparing

Gelatin, tested according to Ph. Eur.

A protein derived from collagen, widely used to form transparent, flexible, and biodegradable films with good oxygen barrier properties.

Property	AVG	± σ	Unit
Young's Modulus	2.79	0.33	GPa
Elastic Fit R²	0.9959	0.0022
Tensile Strength	73.31	8.94	MPa
Stress @ Break	71.83	9.62	MPa
Strain @ Break	3.9	1.0	%

50/50+ Compare

carboxmethyl celluloseGelatin, tested according to Ph. Eur.

Property	AVG	± σ	Unit
Young's Modulus	3.41	0.56	GPa
Elastic Fit R²	0.9993	0.0004
Tensile Strength	63.81	8.51	MPa
Stress @ Break	63.81	8.51	MPa
Strain @ Break	3.6	1.0	%

71/29+ Compare

Gelatin, tested according to Ph. Eur.1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	0.13	0.03	GPa
Elastic Fit R²	0.9990	0.0006
Tensile Strength	4.21	0.83	MPa
Stress @ Break	4.12	0.89	MPa
Strain @ Break	43.9	9.3	%

100✓ Comparing

carboxmethyl cellulose

Property	AVG	± σ	Unit
Young's Modulus	2.61	0.24	GPa
Elastic Fit R²	0.9966	0.0032
Tensile Strength	55.92	10.34	MPa
Stress @ Break	55.87	10.33	MPa
Strain @ Break	12.1	5.5	%

50/50✓ Comparing

Hydroxyethyl-cellulosecarboxmethyl cellulose

Property	AVG	± σ	Unit
Young's Modulus	1.68	0.14	GPa
Elastic Fit R²	0.9985	0.0014
Tensile Strength	33.80	5.03	MPa
Stress @ Break	33.79	5.04	MPa
Strain @ Break	10.2	3.5	%

100+ Compare

Hydroxyethyl-cellulose

Property	AVG	± σ	Unit
Young's Modulus	0.93	0.13	GPa
Elastic Fit R²	0.9986	0.0027
Tensile Strength	21.04	3.51	MPa
Stress @ Break	21.04	3.51	MPa
Strain @ Break	11.3	4.3	%

100✓ Comparing

Poly(vinyl alcohol)(Mw 13,000-23,000, 98% hydrolyzed)

Property	AVG	± σ	Unit
Young's Modulus	1.17	0.30	GPa
Elastic Fit R²	0.9966	0.0032
Tensile Strength	27.04	2.70	MPa
Stress @ Break	25.75	2.86	MPa
Strain @ Break	46.9	12.5	%

80/20+ Compare

Chitosan (200-600mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 80.0 %1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.25	0.03	GPa
Elastic Fit R²	0.9978	0.0019
Tensile Strength	11.88	1.33	MPa
Stress @ Break	11.85	1.33	MPa
Strain @ Break	42.0	6.3	%

75/25+ Compare

Chitosan (200-600mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 80.0 %1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.02	0.00	GPa
Elastic Fit R²	0.9939	0.0009
Tensile Strength	15.71	3.99	MPa
Stress @ Break	15.71	3.99	MPa
Strain @ Break	69.2	5.4	%

71/29+ Compare

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0%1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.24	0.04	GPa
Elastic Fit R²	0.9980	0.0020
Tensile Strength	13.75	2.22	MPa
Stress @ Break	13.68	2.31	MPa
Strain @ Break	44.1	8.8	%

42/42/17+ Compare

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0 %L-Ascorbic acid, L-Threoascorbic acid, Antiscorbutic factor, Vitamin C1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.22	0.03	GPa
Elastic Fit R²	0.9985	0.0015
Tensile Strength	7.38	1.92	MPa
Stress @ Break	7.35	1.94	MPa
Strain @ Break	12.9	5.7	%

67/17/17+ Compare

carboxmethyl cellulose1,2,3-PropanetriolGlycerinGlycerolLignin, alkali

Property	AVG	± σ	Unit
Young's Modulus	1.23	0.10	GPa
Elastic Fit R²	0.9989	0.0011
Tensile Strength	32.62	3.33	MPa
Stress @ Break	32.62	3.33	MPa
Strain @ Break	21.2	5.1	%

80/20+ Compare

carboxmethyl cellulosePoly(ethylene glycol), Polyglycol, Polyethylene oxide, Polyoxy ethylene, PEG 400, PEG

Property	AVG	± σ	Unit
Young's Modulus	2.00	0.10	GPa
Elastic Fit R²	0.9957	0.0037
Tensile Strength	44.55	5.15	MPa
Stress @ Break	44.55	5.15	MPa
Strain @ Break	7.3	2.8	%

80/20+ Compare

Property	AVG	± σ	Unit
Young's Modulus	2.29	0.09	GPa
Elastic Fit R²	0.9974	0.0031
Tensile Strength	41.02	4.28	MPa
Stress @ Break	41.02	4.28	MPa
Strain @ Break	3.6	1.4	%

91/9+ Compare

Property	AVG	± σ	Unit
Young's Modulus	2.96	0.52	GPa
Elastic Fit R²	0.9939	0.0041
Tensile Strength	40.15	8.91	MPa
Stress @ Break	40.07	8.85	MPa
Strain @ Break	1.8	0.7	%

67/17/17+ Compare

Gelatin, tested according to Ph. Eur.L-Ascorbic acid, L-Threoascorbic acidAntiscorbutic factor, Vitamin C1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	1.57	0.18	GPa
Elastic Fit R²	0.9987	0.0014
Tensile Strength	39.60	2.61	MPa
Stress @ Break	37.09	2.13	MPa
Strain @ Break	8.1	3.0	%

75/25+ Compare

Property	AVG	± σ	Unit
Young's Modulus	1.32	0.07	GPa
Elastic Fit R²	0.9995	0.0004
Tensile Strength	37.07	2.25	MPa
Stress @ Break	36.36	2.10	MPa
Strain @ Break	11.8	3.9	%

50/50+ Compare

Hydroxyethyl-celluloseGelatin, tested according to Ph. Eur.

Property	AVG	± σ	Unit
Young's Modulus	1.99	0.23	GPa
Elastic Fit R²	0.9976	0.0026
Tensile Strength	27.93	5.47	MPa
Stress @ Break	27.82	5.27	MPa
Strain @ Break	2.0	0.5	%

67/33+ Compare

Hydroxyethyl-celluloseStarch from potato

Property	AVG	± σ	Unit
Young's Modulus	1.11	0.09	GPa
Elastic Fit R²	0.9979	0.0021
Tensile Strength	15.76	3.03	MPa
Stress @ Break	15.76	3.03	MPa
Strain @ Break	2.6	1.1	%

80/20+ Compare

Hydroxyethyl-cellulose1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.00	0.00	GPa
Elastic Fit R²	0.9983	0.0013
Tensile Strength	3.73	1.48	MPa
Stress @ Break	3.73	1.48	MPa
Strain @ Break	87.5	27.5	%

50/50+ Compare

Property	AVG	± σ	Unit
Young's Modulus	3.08	0.12	GPa
Elastic Fit R²	0.9980	0.0024
Tensile Strength	42.84	4.77	MPa
Stress @ Break	42.84	4.77	MPa
Strain @ Break	1.8	0.4	%

50/50+ Compare

Alginic acid sodium salt from brown algaeAlgin, Sodium alginateGelatin, tested according to Ph. Eur.

Property	AVG	± σ	Unit
Young's Modulus	3.28	0.34	GPa
Elastic Fit R²	0.9981	0.0025
Tensile Strength	61.60	3.83	MPa
Stress @ Break	61.50	3.85	MPa
Strain @ Break	3.1	0.5	%

91/9✓ Comparing

Starch from potato1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	1.62	0.08	GPa
Elastic Fit R²	0.9965	0.0048
Tensile Strength	25.18	0.67	MPa
Stress @ Break	24.89	0.35	MPa
Strain @ Break	2.4	0.3	%

67 /17/17+ Compare

Property	AVG	± σ	Unit
Young's Modulus	0.45	0.05	GPa
Elastic Fit R²	0.9977	0.0019
Tensile Strength	12.42	0.37	MPa
Stress @ Break	12.37	0.41	MPa
Strain @ Break	20.5	5.7	%

75/25+ Compare

carboxmethyl celluloseGelatin, tested according to Ph. Eur.

Property	AVG	± σ	Unit
Young's Modulus	2.74	0.15	GPa
Elastic Fit R²	0.9952	0.0028
Tensile Strength	55.86	2.54	MPa
Stress @ Break	55.85	2.54	MPa
Strain @ Break	4.5	2.1	%

91/9+ Compare

Gelatin, tested according to Ph. Eur.1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	1.77	0.33	GPa
Elastic Fit R²	0.9993	0.0005
Tensile Strength	44.32	9.26	MPa
Stress @ Break	42.05	9.42	MPa
Strain @ Break	10.6	6.3	%

80/20+ Compare

Gelatin, tested according to Ph. Eur.1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	0.64	0.08	GPa
Elastic Fit R²	0.9981	0.0016
Tensile Strength	16.18	0.78	MPa
Stress @ Break	15.34	0.87	MPa
Strain @ Break	10.2	2.7	%

80/20+ Compare

carboxmethyl cellulose1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	1.09	0.07	GPa
Elastic Fit R²	0.9990	0.0005
Tensile Strength	23.20	3.21	MPa
Stress @ Break	23.12	3.17	MPa
Strain @ Break	13.5	3.5	%

100✓ Comparing

Chitosan (200-600mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 80.0 %

Property	AVG	± σ	Unit
Young's Modulus	3.81	0.62	GPa
Elastic Fit R²	0.9986	0.0016
Tensile Strength	69.59	10.19	MPa
Stress @ Break	69.46	10.28	MPa
Strain @ Break	12.4	5.9	%

100✓ Comparing

Poly(vinyl alcohol)(146,000-186,000, 99+% hydrolyzed)

Property	AVG	± σ	Unit
Young's Modulus	1.67	1.00	GPa
Elastic Fit R²	0.9970	0.0023
Tensile Strength	38.64	8.28	MPa
Stress @ Break	31.73	7.95	MPa
Strain @ Break	97.8	53.0	%

100✓ Comparing

Alginic acid sodium salt from brown algaeAlginSodium alginate

Property	AVG	± σ	Unit
Young's Modulus	3.85	0.33	GPa
Elastic Fit R²	0.9979	0.0021
Tensile Strength	60.32	7.65	MPa
Stress @ Break	60.08	7.51	MPa
Strain @ Break	7.9	2.4	%

94/6+ Compare

Chitosan (200-600mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 80.0 %1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	2.52	0.12	GPa
Elastic Fit R²	0.9966	0.0018
Tensile Strength	41.46	1.52	MPa
Stress @ Break	37.20	2.45	MPa
Strain @ Break	5.5	1.9	%

100+ Compare

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0 %

Property	AVG	± σ	Unit
Young's Modulus	2.30	0.45	GPa
Elastic Fit R²	0.9966	0.0023
Tensile Strength	44.39	4.39	MPa
Stress @ Break	42.03	4.14	MPa
Strain @ Break	7.2	4.0	%

33/33/33+ Compare

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0 %L-Ascorbic acid, L-Threoascorbic acid, Antiscorbutic factor, Vitamin C1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.00	0.00	GPa
Elastic Fit R²	0.9911	0.0005
Tensile Strength	1.01	0.30	MPa
Stress @ Break	1.01	0.30	MPa
Strain @ Break	86.4	11.1	%

50/50✓ Comparing

Chitosan (5-20mPa·s, 0.5% in 0.5% Acetic Acid at 20°C)Deacetylation value = min. 70.0 %Gelatin, tested according to Ph. Eur.

Property	AVG	± σ	Unit
Young's Modulus	2.46	0.18	GPa
Elastic Fit R²	0.9975	0.0012
Tensile Strength	57.53	3.10	MPa
Stress @ Break	55.76	3.47	MPa
Strain @ Break	4.7	0.7	%

89/11+ Compare

carboxmethyl celluloseLignin, alkali

Property	AVG	± σ	Unit
Young's Modulus	2.91	0.33	GPa
Elastic Fit R²	0.9979	0.0027
Tensile Strength	54.37	3.89	MPa
Stress @ Break	54.30	3.99	MPa
Strain @ Break	6.7	1.3	%

80/20+ Compare

carboxmethyl cellulose-

Property	AVG	± σ	Unit
Young's Modulus	2.89	0.11	GPa
Elastic Fit R²	0.9981	0.0004
Tensile Strength	48.69	14.22	MPa
Stress @ Break	48.65	14.22	MPa
Strain @ Break	2.3	0.7	%

80/20+ Compare

carboxmethyl celluloseL-Ascorbic acid, L-Threoascorbic acid, Antiscorbutic factor, Vitamin C

Property	AVG	± σ	Unit
Young's Modulus	3.73	0.42	GPa
Elastic Fit R²	0.9960	0.0021
Tensile Strength	39.27	8.28	MPa
Stress @ Break	39.27	8.28	MPa
Strain @ Break	1.3	0.2	%

83/8/8+ Compare

Gelatin, tested according to Ph. Eur.L-Ascorbic acid, L-Threoascorbic acid, Antiscorbutic factor, Vitamin C1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	1.89	0.09	GPa
Elastic Fit R²	0.9957	0.0035
Tensile Strength	46.37	4.19	MPa
Stress @ Break	45.01	4.83	MPa
Strain @ Break	5.3	1.2	%

80/20+ Compare

Gelatin, tested according to Ph. Eur.Poly(ethylene glycol)PolyglycolPolyethylene oxidePolyoxy ethylenePEG 400PEG

Property	AVG	± σ	Unit
Young's Modulus	1.94	0.38	GPa
Elastic Fit R²	0.9984	0.0029
Tensile Strength	48.35	9.62	MPa
Stress @ Break	46.50	10.68	MPa
Strain @ Break	6.1	2.1	%

80/20+ Compare

Property	AVG	± σ	Unit
Young's Modulus	1.38	0.05	GPa
Elastic Fit R²	0.9988	0.0003
Tensile Strength	27.89	0.61	MPa
Stress @ Break	25.69	0.61	MPa
Strain @ Break	12.2	4.5	%

50/50+ Compare

Hydroxyethyl-celluloseAlginic acid sodium salt from brown algaeAlginSodium alginate

Property	AVG	± σ	Unit
Young's Modulus	1.83	0.12	GPa
Elastic Fit R²	0.9989	0.0021
Tensile Strength	28.49	3.08	MPa
Stress @ Break	28.46	3.07	MPa
Strain @ Break	4.1	1.1	%

91/9+ Compare

Hydroxyethyl-cellulose1,2,3-PropanetriolGlycerinGlycerol

Property	AVG	± σ	Unit
Young's Modulus	0.01	0.00	GPa
Elastic Fit R²	0.9955	0.0024
Tensile Strength	6.29	1.45	MPa
Stress @ Break	6.28	1.47	MPa
Strain @ Break	50.6	5.1	%

50/50+ Compare

Poly(vinyl alcohol) (Mw 13,000-23,000, 98% hydrolyzed)Alginic acid sodium salt from brown algaeAlginSodium alginate

Property	AVG	± σ	Unit
Young's Modulus	2.09	0.13	GPa
Elastic Fit R²	0.9973	0.0021
Tensile Strength	21.26	3.17	MPa
Stress @ Break	21.24	3.18	MPa
Strain @ Break	1.7	0.4	%

50/50+ Compare

Alginic acid sodium salt from brown algaeAlgin, Sodium alginatecarboxmethyl cellulose

Property	AVG	± σ	Unit
Young's Modulus	2.98	0.78	GPa
Elastic Fit R²	0.9953	0.0032
Tensile Strength	50.14	6.65	MPa
Stress @ Break	50.13	6.66	MPa
Strain @ Break	3.9	1.6	%

77/23+ Compare

Property	AVG	± σ	Unit
Young's Modulus	1.38	0.11	GPa
Elastic Fit R²	0.9979	0.0032
Tensile Strength	28.67	4.77	MPa
Stress @ Break	28.66	4.77	MPa
Strain @ Break	7.9	4.5	%

50/50+ Compare

Starch from potato1,2,3-Propanetriol, Glycerin, Glycerol

Property	AVG	± σ	Unit
Young's Modulus	0.01	0.00	GPa
Elastic Fit R²	0.9935	0.0016
Tensile Strength	1.39	0.69	MPa
Stress @ Break	1.38	0.69	MPa
Strain @ Break	27.2	1.2	%