• Food Science and Preservation
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• v.6 no.2
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• pp.167-172
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• 1999

The noodle making characteristics were investigated for both eleven varities of Korean wheat, such as Chokwangmil, Geurumil, Eunpamil, Tnpdongmil, Woorimil, Oigeurmil, Alchanmil, Cobunmil, Geumgangmil, Seodunmil and Suwon 265, and two varieties of imported wheat, DNS(Dark Northern Spring Wheat) and ASW(Australian Standard White). After cooking of dry-noodle, the elasticities were 0.59-0.79 in the native wheat and 0.55-0.57 in the imported wheat. Among the varieties showing the highest value in the various texture properties of cooked dry-noodle, Alchanmil was highest in gumminess, Geungangmil in cohesiveness, Olgeurumil in adhesiveness, Geurumil in fimmess, Chokwang in chewiness, Tapdongmil in tensile strength Gobunmil in breaking strength. After cooking the wet-noodle, Tapdongmil in elasticity, Geurumil in adhesiveness, Geumgangmil in gumminess, cohesiveness, firmness and chewiness, and Suwon 265 in tensile strength showed the highest values in the respective textural properties. From the sensory evaluation of the cooked dry-noodle, the significant differences (p<0.05) among wheat varieties were observed in color, texture and overall quality. As a result, ASW was excellent in our all qualities of cooked dry-noodle followed by Tapdongmil, Alchanmil and Geumgangmil. The cooked wet-noodle also showed the high sensory scores (p<0.01) were showing the best in Tapdongmil, followed by Eunpamil, Geumgangmil and Woorimil.

• Applied Biological Chemistry
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• v.41 no.7
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• pp.539-544
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• 1998

A study was conducted to investigate the effects of Poria cocos powder on dough rheology and wet noodle quality. Poria cocos powder had considerably lower content of crude protein, crude fat and crude ash than those of wheat flour. Poria cocos powder had also much bigger particle size $(74.62\;{\mu}m)$ and larger surface area $(3884.13\;cm^2/g)$ than those of wheat flour. The peak, final viscosities and setback in amylograph increased with the increase of Poria cocos powder concentration. The water absorption and dough stability in farinograph increased with the increase of Poria cocos powder concentration. With the increase of Poria cocos powder, the L values decreased in wheat flour-Poria cocos powder blend and dough, but increased in wet noodles. The cooked weight and volume of cooked noodles decreased, but the turbidity of soup increased with the increase of Poria cocos powder concentration. The hardness, cohesiveness, chewiness and springiness of cooked noodles had the biggest values at 3% addition of Poria cocos powder, but the values decreased above that concentration. The sensory evaluation of cooked noodles showed that the wet noodles with high quality could be produced by $5{\sim}7%$ addition of Poria cocos powder.

• The Korean Journal of Food And Nutrition
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• v.19 no.3
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• pp.261-266
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• 2006

The purpose of this study was to use polymannuronic acid (polymann) obtained from the polysaccharide, component of brown seaweed, to convert wet noodles to healthier noodles. The study also investigated the effects of polymann on the quality of wet noodles. The wet noodles were prepared with composite flour containing various contents of polymann. The characteristics of the wet and cooked noodles, such as color, texture, cooking properties and sensory attributes, were evaluated. The addition of polymann did not affect the cooking weight, volume and water absorption. The turbidity of polymann noodle soup increased slightly as the amount of polymann in the noodles was increased. The L, a and b values of wet and cooked polymann noodles decreased as the amount of polymann was increased. Texture properties increased proportionally as the amount of polymann was increased. The hardness of noodles made with polymann was lower than that of control, while the springiness and adhesiveness of polymann noodles were higher than those of control. In sensory evaluations, there were no significant differences between control noodles and those containing 2% and 4% polymann. However, noodles with 2% polymann received significantly higher taste scores than the other noodles.

• Journal of the Korean Society of Food Science and Nutrition
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• v.45 no.1
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• pp.84-90
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• 2016

This study investigated the quality of wet noodles added with Allium hookeri powder. Wet noodles were prepared by addition of 0, 2, 6, and 10% powder to flour of the basic formulation. The water binding capacity of Allium hookeri powder was higher than that of flour. Swelling power and solubility increased with increased temperature. The weight, water absorption, volume, and turbidity values of cooked noodles showed no significant differences. The lightness value decreased with an increase in Allium hookeri powder content. The redness and yellowness values increased with an increase in Allium hookeri powder content. The textural properties of cooked noodles decreased with an increase in Allium hookeri powder content. Antioxidative activity as measured by 2,2-diphenyl-1-picrylhydrazyl radical scavenging activity of wet noodles increased as the concentration of Allium hookeri powder increased. The highest quality noodles were obtained with 2% Allium hookeri powder in the wet noodle formula.

• Korean journal of food and cookery science
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• v.26 no.6
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• pp.831-839
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• 2010

The results of wet noodles added with 0, 1, 3, 5, and 7% freeze-dried maesangi powder demonstrate that the addition of maesangi powder up to 5% was desirable formation of noodles. The moisture contents of wet noodle 35.48~36.42%. As the added amount of maesangi powder increased, weight, volume, water absorption, and turbidity the wet noodle soup after cooking increased. Measurement of color changes between before and after cooking the wet noodles found that as the added amount of maesangi powder increased, the lightness and yellowness increased. Measurement of texture after boiling found that, hardness, chewiness and gumminess tended to increase as the amount of added maesangi powder increased whereas, springiness and cohesiveness were significantly different between the different samples. The results of the sensory evaluation showed that the 3%-added group was the best for color, flavor, and taste while the control groups had the best texture. For overall acceptability, the 3%-added group showed found the highest preference level. Measurement of the changes in total viable cells during storage at $5^{\circ}C$ for 18 days found that 6-days was the optimal storage period for the noodles from the control groups and added groups. As the storing period increased, the maesangi powder added groups showed slower propagation speed for viable cells compared to the control groups.

• Korean journal of food and cookery science
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• v.25 no.2
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• pp.199-205
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• 2009

Wet noodles with different percentages of Curcuma Ionga L. powder(CLP) as an additive were generated and their cooking characteristics were evaluated. Wheat flour with 8% CLP had the highest water binding capacity and breakdown, while setback was reversed. Cooked noodle characteristics, weight, volume and tensile strength decreased as CLP content of wheat flour increased, but turbidity of the soup was reversed. L value of wet noodles was higher than cooked noodles, while b value, and texture of wet noodles were lower than cooked noodles. Hunter color value and texture measurements demonstrated decreasing L value, springiness and cohesiveness but increasing b value, hardness, gumminess and chewiness with increasing CLP content. In sensory evaluations, noodles made with 4% CLP were most highly preferred, while noodles made with 2% and 8% CLP were less preferred than CLP-free prepared noodles.

• The Korean Journal of Food And Nutrition
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• v.30 no.2
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• pp.282-289
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• 2017

This study was conducted to investigate the noodle-making characteristics of a noodle dough with konjac powder added. The water-binding capacity was significantly increased by increasing amounts of the konjac powder. When the weight and volume of the noodles were measured after cooking, there was no difference between the control and konjac powder groups. Turbidity was significantly reduced in a concentration-dependent manner. Chromaticity, in the case of raw noodle lightness (L), decreased significantly, while redness (a) and yellowness (b) significantly increased. Cooked noodles also showed the same pattern of results, however, as a whole, the results were lower when compared to wet noodles. The texture characteristics of hardness and chewiness significantly increased by increasing concentrations of the konjac powder. Cohesiveness was determined to not be significantly different by observing the surface of the noodle with a scanning electron microscope. In a sensory evaluation of the cooked noodle, no significant differences in gloss, taste, hardness, springiness or overall acceptability were observed between the control and konjac powder groups. This study indicates the that addition of 1.5% konjac powder to noodle dough may improve the functionality and preference of noodles.

• Korean journal of food and cookery science
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• v.21 no.6 s.90
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• pp.919-926
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• 2005

The effects of the addition of germinated whole soy flour on dough and noodle characteristics were investigated in this study. The soybeans were germinated for 12 hours at $20^{\circ}C$ and ground to 60 mesh. With increasing soybean flour addition up to $16\%$, the RVA viscograph and mixograph properties were significantly decreased both with and without the addition of $3\%$ salt(p<0.05). The width and length extensibility were increased with increasing whole soy flour addition up to $8\%$ after which they decreased. The addition of the whole soy flour turned the color of the wet and cooked noodle a little darkish and greenish yellow. The hardness and gumminess of wet noodle increased with increasing whole soy flour amount, while those of cooked noodle gradually decreased. Sensory evaluation showed that addition of tile whole soy flour significantly increased the savory flavor and yellowish color of cooked noodle.

• Korean Journal of Food Science and Technology
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• v.51 no.2
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• pp.120-126
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• 2019

In this study, the quality characteristics and antioxidant activities of wet noodles added with seunggumcho (Angelica gigas N Leaf) powder at concentrations of 1, 2, 3, and 4%, respectively, were investigated. The moisture contents and pH of the samples showed a tendency to decrease with increasing amounts of seunggumcho powder. Texture measurement indicated that 'hardness,' 'springiness,' and 'chewiness' of the cooked noodle were the highest in the control group, and these parameters showed a tendency to decrease with increasing amounts of seunggumcho powder. The total polyphenol contents in wet noodles added with seunggumcho powder increased with increasing amounts of seunggumcho powder. 2,2-diphenyl-1-picrylhydrazyl radical scavenging activity was the lowest in the control group (10.85%) and highest in the 4% addition group (44.84%). ${\alpha}-Glucosidase$ inhibitory activity showed the lowest value in control group (1.17%), and increased with increasing amounts of seunggumcho powder. The sensory preference score was the highest for color, flavor, taste, and chewiness in the 2% addition sample. The findings of this study suggest the feasibility of seunggumcho added wet noodles as a health food with physiological benefits and provide evidence for introducing various health foods by adding seunggumcho.

• The Korean Journal of Food And Nutrition
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• v.16 no.2
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• pp.158-164
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• 2003

This study was conducted to investigate the properties of noodle which was made of composite flour blended with the powder of synnemata of Beauveria bassiana. The characteristics of cooked-noodle including color, cooking properties, mechanical texture properties were measured, and sensory evaluation was performed. The L-value of dry and wet-noodle which made of composite flour was similar to that of 100% wheat flour, but a and b-value were higher than those of 100% wheat flour. There were no differences in the weight, volume and water absorption of the cooked-noodle made of composite flour and that of 100% wheat flour, but the turbidity of the cooked-noodle made of composite flour was higher than that of 100% wheat flour. The breaking force of dry-noodle which was made of composite flour was same as that of 100% wheat flour. Hardness and Gumminess of the cooked-noodle which was made of composite flour blended with synnemata powder at level of 1∼5% were same as those of 100% wheat flour. Springiness, chewiness, cohesiveness and adhesiveness of the cooked-noodle which was made of composite flour blended with synnemata powder at level of 1% were similar to those 100% wheat flour. The results of sensory evaluation showed that the cooked-noodles containing 1% and 3% synnemata powder were acceptable as much as those of 100% wheat flour in terms of color, taste, flavor, texture and overall acceptance.