Demonstration of FoodFab: Creating Food Perceptual Illusions using Food 3D Printing

Punpongsanon, Parinya; Lin, Ying-Ju; Wen, Xin; Iwai, Daisuke; Sato, Kosuke; Obrist, Marianna; Mueller, Stefanie

doi:10.1145/3334480.3383144

Cited by 5 publications

(6 citation statements)

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“…Only very few studies (Chow et al, 2021;Fahmy et al, 2021;Kistler, Pridal, Bourcet, & Denkel, 2021;Mantihal et al, 2019;Punpongsanon et al, 2020;Zhu, Ribberink, De Wit, Schutyser, & Stieger, 2020) investigated how structural modifications created by 3D printing impact consumer and sensory perception of foods. These studies explored sensory and oral behavioral responses (sweetness perception, texture preference and mastication behaviour) rather than texture perception of 3D printed foods.…”

Section: Introductionmentioning

confidence: 99%

How macroscopic structure of 3D printed protein bars filled with chocolate influences instrumental and sensory texture

Zhu

Azua

Feijen

et al. 2021

LWT

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Section: Introductionmentioning

confidence: 99%

How macroscopic structure of 3D printed protein bars filled with chocolate influences instrumental and sensory texture

Zhu

Azua

Feijen

et al. 2021

LWT

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“…They successfully created confectionary products with enhanced sweetness while maintaining the same sugar content (Kistler et al, 2021). Variation in porosity of 3D printed cookies influenced consumers' chewing time, which might potentially affect satiation (Punpongsanon et al, 2020). These studies demonstrated that 3D printing can be used to create healthier foods by either creating an inhomogeneous distribution of food components or by creating porous structures.…”

Section: Customization Of Printed Structures To Modify Texture Percep...mentioning

confidence: 96%

“…3D printing can also impact consumer and sensory perception of foods and its effect depends on the formulation and printing designs. A few recent studies explored sweetness perception (Khemacheevakul et al, 2021;Kistler et al, 2021), saltiness perception (Fahmy et al, 2021), texture preference (Mantihal et al, 2019) and mastication behaviour (Punpongsanon et al, 2020) of 3D printed foods. As an example, Kistler et al (2021) used 3D printing to prepare confectionery products with an inhomogeneous spatial distribution of sucrose.…”

Section: Powder Bed Printingmentioning

confidence: 99%

“…However, food structures produced using current manufacturing technologies are relatively limited. While the confectionery products in the study of Kistler et al (2021) and savoury foods in the study of Fahmy et al (2021) can easily be achieved through conventional manufacturing (think of candies with liquid fillings or commercial layered cakes), it would be challenging to produce foods with more complex structures such as for example protein bars with rectilinear infill (Chapter 6) and cookies with defined porosity (Punpongsanon et al, 2020). Finally, it is expected that 3D printing is more cost effective than conventional manufacturing techniques for local and on-demand production such for example at home or in a local retailer, restaurant, hospital or gym.…”

Section: Customization Of Printed Structures To Modify Texture Percep...mentioning

confidence: 99%

“…Only very few studies (Chow et al, 2021;Fahmy et al, 2021;Kistler et al, 2021;Mantihal et al, 2019;Punpongsanon et al, 2020; investigated how structural modifications created by 3D printing impact consumer and sensory perception of foods.…”

Section: Introductionmentioning

confidence: 99%

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3D food printing: from structure to perception

Zhu¹

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3D printing is a technology that employs computer-aided designs to build objects on a platform through layer-by-layer deposition. In the past decades, 3D printing has been increasingly applied in a wide array of applications related to construction, art, education and medical services. 3D printing provides distinct advantages such as fast prototyping, the ability to make complex object shapes, and efficient production of customized items (Portanguen et al., 2019).The number of scientific studies investigating the principles and applications of 3D food printing is rapidly increasing. A total of 761 publications have been published about 3D food printing (Fig 1 .1) during the past ten years from 2011 to 2021. The studies indicate that 3D food printing offers the opportunity to create foods with complex geometries, new textures and/or personalized nutritional profiles. Furthermore, 3D food printing has been suggested to contribute to a more sustainable production of food products as it allows for on-demand manufacturing leading to reduction of food waste in the chain (Portanguen et al., 2019;Sun et al., 2015). Very recently also a number of start-up companies popped up such as Revo Foods and Redefine Meat™ that successfully apply 3D printing for manufacturing of foods. Figure 1.1. Number of publications per year about 3D food printing in academic journals during 2011-2021 from database Scopus.Search keywords contained either "3D printing", "3D food printing", "additive manufacturing" or "three-dimensional printing", and contain "food" in the abstract. 8 than that of real muscle fibres (20-100 µm). Creating unique fibrous structures at both macroscale and microscale using 3D printing technology is, therefore, a challenge. To create unique structures, alternative printing formulations, adapted printing procedures and different printing technologies need to be assessed. 1.4.3. Modifying sensory perception using 3D printed foods An often-reported advantage of 3D food printing is its ability to create novel food structures, which may lead to a change in perceived texture. During traditional product development foods are often modified through recipe reformulation, e.g., to lower the caloric content of a food. However, reformulation of foods negatively affects the texture sometimes and, as a result, the acceptance of foods by consumers. An alternative approach is to modify food structure towards improved textural properties without modification of the recipe.Modifications of food texture by changing the macroscopic food structure are appealing because it is well established that texture properties of foods can be used to modify eating behaviours and palatability of foods, which can improve control over food and energy intake (Bolhuis & Forde, 2020; McCrickerd et al al., 2020). As previously mentioned, many studies showed the impact of structural modifications on instrumental texture properties of 3D printed foods. Despite showing promising results, these studies did not explore how structural modifications of 3D printed...

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Impact of internal structural design on quality and nutritional properties of 3D printed food products during post-printing: a critical review

Wang

Zhang

Phuhongsung

et al. 2022

Critical Reviews in Food Science and Nutrition

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Demonstration of FoodFab: Creating Food Perceptual Illusions using Food 3D Printing

Cited by 5 publications

References 4 publications

How macroscopic structure of 3D printed protein bars filled with chocolate influences instrumental and sensory texture

How macroscopic structure of 3D printed protein bars filled with chocolate influences instrumental and sensory texture

3D food printing: from structure to perception

Impact of internal structural design on quality and nutritional properties of 3D printed food products during post-printing: a critical review

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