Fact-checked by Grok 2 weeks ago

Compound chocolate

Compound chocolate is a confectionery coating product designed as an economical substitute for traditional chocolate, primarily composed of cocoa powder, sweeteners such as sugar, and vegetable fats like palm kernel oil or hydrogenated vegetable oils, which replace the more expensive cocoa butter found in real chocolate. Unlike pure chocolate, which must adhere to strict compositional standards requiring cocoa butter as the primary fat—such as at least 10% chocolate liquor and 12% milk solids for milk chocolate under FDA regulations—compound chocolate typically contains 35-40% vegetable fat, 8-18% cocoa, and minimal milk solids, allowing it to avoid tempering and offering a longer shelf life without fat bloom issues. This formulation results in distinct physical properties, including a of 35-37°C and the ability to set without the crystalline structure of cocoa butter, making it easier to handle in industrial production but less suitable for applications requiring a smooth snap or precise molding. Compound chocolate often incorporates emulsifiers like or (PGPR) to improve flow, reduce and allow for a 4-6% in content, and enhance during , contributing to its widespread adoption in where cost savings are prioritized over premium texture and flavor intensity. Commonly used in and for enrobing, drizzling, or as inclusions in products like cookies, snack bars, , and cereals, compound chocolate provides versatility in formulations, including , dark, or white varieties, and can be fortified with additives like dried fruits for nutritional enhancement while maintaining affordability. Its lower cocoa content and fat base also make it a practical choice for large-scale operations, though it cannot be labeled simply as "" in regulated markets to prevent confusion with authentic products.

Definition and Composition

Definition

Compound chocolate is a confectionery product composed of cocoa powder (a cocoa-derived ingredient), combined with non-cocoa vegetable fats—typically vegetable oils—and sweeteners like sugar. This formulation distinguishes it from true chocolate, which legally requires cocoa butter as its primary fat component to meet standards set by regulatory bodies like the U.S. Food and Drug Administration (FDA). By replacing cocoa butter with less expensive vegetable fats, compound chocolate achieves a similar appearance and basic flavor profile without the higher production costs associated with cocoa butter sourcing and processing. The primary purpose of compound chocolate is to serve as a lower-cost alternative to real in large-scale , particularly for applications where premium and melt characteristics are not essential. It offers economic advantages by reducing material expenses and simplifying production workflows, as it does not require the tempering process— a precise heating and cooling method needed for real to ensure proper , snap, and gloss. This ease of handling makes it ideal for consistent results in high-volume settings without compromising the fundamental chocolate-like aesthetic. Commonly referred to by alternative names such as or chocolate-flavored in certain regional or commercial contexts, it functions effectively as a versatile substitute across various food industries.

Key Ingredients

Compound chocolate is primarily composed of cocoa powder (defatted ), which imparts the characteristic flavor and color, along with vegetable fats replacing , allowing for a more economical product. Vegetable fats serve as the main fat source, replacing to provide desirable meltability, stability, and a texture at a significantly lower cost; common examples include , , and . or other sweeteners form the bulk of the remaining composition, contributing sweetness and structure, while emulsifiers such as soy lecithin are added to improve flow properties and prevent separation during processing. In milk varieties of compound chocolate, milk solids like powder or powder are incorporated to add creaminess and a dairy flavor, typically at levels of 2-10%. Typical proportions vary by type (dark, milk, or white) but generally include 8-18% powder, 30-40% fats, and 20-40% , with emulsifiers comprising about 0.5% and milk solids added as needed for specific formulations. Vegetable fats in compound chocolate are often sourced from tropical oils, such as derived from oil palm plantations, which has raised sustainability concerns due to associated , habitat loss, and impacts in regions like . Efforts to address these issues include the use of certified sustainable sources, though challenges persist in the .

History

Origins and Early Development

Compound chocolate emerged in the 1920s and 1930s in and the as confectioners sought cost-effective alternatives to pure chocolate amid fluctuating supplies and rising prices for , a key but expensive component derived from cocoa beans. An early example was the candy bar, introduced in 1921 by the , which used compound chocolate for its coating. The post-World War I era facilitated this shift through the widespread availability of hydrogenated vegetable oils, such as those based on , which offered stable, inexpensive fats suitable for industrial food production. These substitutes allowed manufacturers to replicate the texture and melting properties of traditional chocolate without relying solely on scarce cocoa butter. Economic pressures during the of the 1930s further accelerated innovation in formulations blending cocoa powder with vegetable fats to reduce production costs while maintaining basic functionality for mass-market products. Initial applications centered on simple enrobings and coatings for candies and bars, enabling affordable treats during widespread financial hardship. A notable milestone occurred in the 1940s, when and subsequent post-war in Europe severely limited cocoa butter imports and availability, prompting broader adoption of vegetable fat blends in compound formulations. In , for instance, chocolate and began in 1942 and persisted until 1953, necessitating substitutes to sustain production amid shortages. This period solidified compound chocolate's role as a practical, economical option in the confectionery industry.

Commercial Expansion

The commercial expansion of compound chocolate accelerated following , particularly from the 1950s onward, as the availability of inexpensive vegetable fats surged due to booming production in . In , large-scale oil palm estate development began post-independence in 1957, with companies like establishing extensive plantations—covering 11,400 acres by 1960 and expanding further by 1964—transforming former rubber lands into productive oil palm areas. This growth, supported by government initiatives such as Malaysia's (FELDA) established in 1956, enabled to overtake as the world's leading producer by 1966, providing a stable, low-cost supply of fats like essential for compound formulations. During the and , the rise of compound chocolate extended to developing countries, where it supported local industries by reducing dependence on scarce and volatile supplies. The integration of smallholder farmers into palm oil clusters via schemes like Malaysia's FELDA further scaled production, meeting global demand for affordable fats used in chocolate alternatives across and other emerging markets. By the , regulatory shifts in select regions began broadening the use of fats, aligning with economic pressures to lower production costs in . Major manufacturers, including U.S.-based firms like Blommer Chocolate, expanded operations during this period—opening new plants in (1948), (1980), and beyond—to capitalize on the growing demand for compound products in global supply chains. By the , compound chocolate dominated applications in and coatings worldwide, driven by its cost advantages over real and comprising a significant share of the industrial "" market. The sector's value reflected this scale, with the global compound market valued at approximately $23.9 billion in 2021, underscoring its role in enabling widespread use in and food . In recent trends, environmental concerns over have prompted a shift toward sustainable fats, such as certified or alternative vegetable oils, while annual global production surpassed 1.2 million metric tons as of 2024. Strategic mergers, like Blommer's partnership with Fuji Oil Holdings to form the third-largest global and compound business across 16 plants in 10 countries, further illustrate ongoing and innovation in the sector.

Production

Manufacturing Process

The manufacturing process of compound chocolate starts with precise ingredient preparation, where , , and optional are weighed and dry-blended, while vegetable fats—such as or —are selected for their compatibility with . Emulsifiers like are also measured at this stage to facilitate later dispersion. For white compound chocolate variations, cocoa powder is omitted entirely, relying instead on the fats and sugar for structure; milk variants incorporate skimmed or whole during blending to achieve a creamier profile. Vegetable fats are melted in tanks or double boilers at controlled of 38–50°C to ensure complete liquidity without degrading heat-sensitive components, after which they are slowly incorporated into the dry mixture using planetary mixers or high-shear blenders. This initial mixing forms a coarse paste, with the overall maintained at 40–50°C to promote even hydration and avoid fat or clumping. is introduced here or in subsequent steps to begin emulsification, aiding in the uniform coating of particles. The paste then advances to , where ball mills or multi-roll refiners—such as three-roll refiners—grind the mixture through multiple passes to reduce to 20–30 microns, yielding a smooth, non-gritty texture essential for . This mechanical , often conducted under moderate heating, shears the solids and distributes fats more evenly, with equipment like five-roll refiners commonly used in industrial settings for high-throughput efficiency. Refined mass undergoes a conching-like process in specialized conches, which is shorter—typically 4 hours—than for real , involving at up to 66°C to further emulsify with , develop , and eliminate minor volatiles for improved flow and stability. This step ensures thorough fat dispersion, critical for preventing in the final product. Finally, the conched mixture is cooled to 30–40°C for pourability and deposited into molds or enrobing lines using automated systems, followed by controlled cooling in tunnels at around 10–15°C to solidify without defects. measures, including inline checks, via , and fat content verification, are applied throughout to ensure uniform and , particularly in large batches of 500–5,000 kg that minimize variability and prevent issues like oil migration.

Tempering and Handling

Unlike real chocolate, compound chocolate does not require tempering due to the use of vegetable fats, which have melting points typically between 30°C and 35°C and form stable crystals without the need for controlled crystallization. These fats allow the product to be simply melted to 40-45°C and then cooled naturally, without seeding or agitation, simplifying preparation for applications like coating or molding. For optimal handling, compound chocolate should be stored in a cool, dry environment at 15-20°C to maintain its and prevent softening. It can be remelted multiple times without significant quality loss, as the vegetable composition remains stable through repeated heating and cooling cycles. If is too high for specific uses, such as enrobing, it can be adjusted by incorporating additional vegetable fats during melting to achieve a smoother flow. In practice, compound chocolate offers advantages like a faster setting time of 5-10 minutes at compared to over 20 minutes for real , enabling quicker production cycles. It is also less sensitive to minor temperature fluctuations, reducing the risk of improper during handling. A common issue with compound chocolate is blooming, which can occur due to exposure causing and recrystallization on the surface; this is mitigated by ensuring dry processing conditions and avoiding humid environments during melting and application.

Uses and Applications

In

Compound chocolate is widely utilized in confectionery for enrobing centers such as nuts, fruits, or pralines, where it provides a uniform outer layer that enhances appearance and protects the interior. It is also employed in molding processes to create solid or hollow shapes, including and holiday figures, allowing for intricate designs without the need for precise . Additionally, dipping techniques apply compound chocolate to produce items like truffles or chocolate bars, leveraging its smooth flow for even coverage. A key advantage in confectionery production is the rapid solidification of compound chocolate, which enables high-volume output by reducing cooling times compared to traditional chocolate. This property, combined with its ease of handling without tempering, supports efficient workflows in large-scale operations. Furthermore, compound chocolate readily accepts added dyes, facilitating color variations for themed products such as pastel coatings or vibrant accents. In mass-market confectionery, compound chocolate appears in items like chocolate-coated biscuits, where it forms a crisp outer shell, and as toppings for bars to prevent melting. It is also prevalent in seasonal novelties, including holiday-themed figures and , which benefit from its cost-effective application in decorative formats. Specific techniques enhance its versatility; spray coating delivers uniform thin layers over confections for a glossy finish, while injection molding fills polycarbonate molds to produce lightweight hollow figures that are then cooled and demolded.

In Baking and Food Industry

Compound chocolate is widely utilized in the baking sector for its bake-stable properties, particularly in the form of chips or chunks incorporated into cookies, cakes, and muffins, where it maintains structural integrity during high-temperature baking without excessive melting. These inclusions provide a consistent chocolate flavor and texture, enhancing product appeal while simplifying production compared to real chocolate that requires tempering. Additionally, it serves as glazes for pastries and as a base for spreads or fillings in layered baked goods, offering a smooth, non-tempering alternative that sets quickly for efficient handling. On an industrial scale, compound chocolate is employed in processes for manufacturing bars and as coatings for cereals, where its under and ensures uniform application and product durability. Its resistance to melting in high-heat environments makes it ideal for large-scale operations, reducing defects and waste in automated lines. Notable commercial examples include frozen desserts like sandwiches, benefiting from its extended in storage and distribution. In formulation, compound chocolate blends seamlessly with flours and doughs due to its vegetable fat content, which provides better compatibility and reduces separation during mixing or baking. This composition also contributes to extended shelf life through enhanced oxidation resistance of the vegetable fats compared to cocoa butter, minimizing rancidity and maintaining quality over time.

Comparison to Real Chocolate

Physical Properties

Compound chocolate, formulated with vegetable fats as cocoa butter replacers, typically exhibits a melting point in the range of 34–37°C, similar to that of real chocolate but with a broader melting profile due to the polymorphic stability of lauric or non-lauric vegetable fats. These properties can vary depending on the specific vegetable fat used, such as (lauric) versus other non-lauric fats. This results in a softer initial and faster overall melt compared to the sharper transition observed in cocoa butter-based products. The texture of compound chocolate is characterized by a lack of the crisp snap associated with real , arising from the differing crystal structures of vegetable fats, which form a more irregular network and yield a waxy or creamy consistency rather than a firm, brittle break. values for compound chocolate generally range from 3–14 N depending on and vegetable fat content, lower than real 's 11–14 N at 20°C, contributing to this softer, less structured feel. In terms of stability, compound chocolate demonstrates greater resistance to fat bloom than real chocolate, as the vegetable fats avoid the unstable polymorphic transitions of that lead to surface fat migration under temperature fluctuations. Bloom formation in compound varieties may not appear until after 6 weeks at 20°C storage, and products remain stable for up to 12 weeks at 4°C without visible defects. When melted, compound chocolate displays a of approximately 2–4 ·s (2000–4000 ), which is often lower and more consistent than that of real , facilitating easier application in coatings and molding processes. is comparable to real , typically around 1.3–1.5 g/cm³, reflecting similar solid fat and particle compositions. Under proper cool, dry storage conditions, compound chocolate maintains quality for 12–18 months, benefiting from the oxidative stability of fats.

Sensory and Quality Differences

Compound chocolate exhibits a milder taste compared to real , primarily due to its reliance on powder rather than cocoa mass and the absence of , which imparts nuanced flavors in real . This results in a flavor profile that is sweeter overall, stemming from higher content to compensate for the reduced cocoa intensity, often lacking the depth of notes like , nut, or roast found in real . Typical compound chocolate contains 10-20% , which influences its grading and contributes to this subdued taste. The aroma of compound chocolate is less complex than that of real chocolate, as it derives fewer volatile compounds from cocoa butter, which carries unique cacao scents that vegetable fats cannot replicate. To mimic the richer bouquet of real chocolate, some formulations incorporate artificial or natural flavors, enhancing perceived chocolate notes without the full spectrum of natural volatiles. In terms of quality perceptions, compound chocolate is often viewed as a lower-end option for premium , suitable for everyday applications where intense is not paramount, though its acceptability rises in cost-sensitive or functional uses. Consumers note a softer aftertaste in compound chocolate, providing a gentle finish that avoids the lingering intensity of real 's cocoa-driven profile. It is frequently blended with real chocolate to moderate costs while retaining sufficient balance for broad appeal.

Regulatory and Health Aspects

Legal Definitions and Standards

In the United States, the (FDA) defines chocolate products under 21 CFR Part 163, requiring as the primary fat for items labeled as "chocolate," "sweet chocolate," or "milk chocolate." Products substituting vegetable fats for entirely cannot bear the term "chocolate" if it implies a standard chocolate composition, and must instead use descriptors like "chocolate flavored coating" to avoid misleading consumers. For specifically, a minimum of 10% () is mandated. In the , Directive 2000/36/EC establishes that must contain at least 35% total dry , with as the principal fat, and permits up to 5% of specified vegetable fats (such as illipe, , , , kokum gurgi, or kernel) in the finished product. Products exceeding this vegetable fat limit cannot be labeled or sold as "" and are typically marketed as " substitute" or similar terms; within the limit, labeling must clearly state "contains vegetable fats in addition to " in bold type near the product name. As of December 2025, the EU Deforestation Regulation (EUDR) requires that and used in such products be deforestation-free, with obligations for importers. Additionally, from July 2025, maximum levels in and products range from 0.2 to 1.0 mg/kg to mitigate dietary exposure risks. In Canada, the Canadian Food Inspection Agency (CFIA) enforces standards under the Food and Drug Regulations, stipulating that cocoa butter must be the sole fat source for products labeled as "chocolate" or "chocolate coating," with chocolate liquor required in the composition. Compound coatings, which incorporate vegetable fats instead of cocoa butter, do not meet these criteria and cannot use "chocolate coating"; acceptable terms include "coating" or "compound coating" to ensure accurate representation. In , the and Standards Authority of (FSSAI) limits vegetable fats other than to 5% in products qualifying as "," aligning with compositional requirements for . Compound chocolate, defined as containing greater than 5% vegetable fats, is excluded from the chocolate standard and must include bold labeling such as "CONTAINS VEGETABLE FATS OTHER THAN " to disclose the substitution and prevent consumer confusion, though no upper limit is specified for such products. As of January 2025, industrial trans fatty acids are limited to 2% by mass of total oils/fats. The provides international guidelines through Standard CXS 87-1981 (amended 2022), allowing up to 5% vegetable fats (excluding ) in products while prohibiting animal fats except milk fat, with mandatory declaration of vegetable fats near the product name to ensure transparency. Lacking a uniform global standard, it emphasizes truthful labeling and compositional disclosure to avoid misleading claims and support fair .

Nutritional and Health Considerations

Compound chocolate typically consists of 30-40% fat, predominantly derived from vegetable oils such as , which contributes to a higher content compared to real chocolate's . Vegetable fats such as in these formulations are approximately 80-85% , potentially elevating LDL levels and cardiovascular risk when consumed in excess. Caloric density remains similar to real chocolate at 500-550 kcal per 100g, with carbohydrates often exceeding 50g per 100g due to added sugars for flavor enhancement. The reduced cocoa solids in compound chocolate result in lower levels of beneficial flavonoids and antioxidants, such as catechins and epicatechins, which are more abundant in real chocolate and linked to improved endothelial function and reduced inflammation. Earlier versions of compound chocolate often contained trans fats from partially hydrogenated vegetable oils, associated with increased heart disease risk, but these are being phased out globally, with regulatory bans or limits (e.g., <2% in India as of 2025 and WHO targets for elimination by 2030) in many markets. Higher sugar content can contribute to elevated glycemic responses, though the overall glycemic index remains low (around 25-45), similar to dark chocolate. Dairy-free compound chocolate is suitable for vegans, but soy-based emulsifiers like may pose risks for individuals with soy allergies, despite trace protein levels typically insufficient to trigger reactions in most cases. Sustainability concerns with , including and habitat loss, indirectly affect through decline and potential zoonotic disease risks, though direct nutritional impacts are minimal; the EU EUDR aims to address this from December 2025. Health experts recommend moderate consumption of compound chocolate (e.g., 20-30g daily) and selection of non-hydrogenated variants to optimize profiles and minimize intake.

References

  1. [1]
    Formulating and studying compound chocolate with adding dried ...
    Compound chocolate is produced as an alternative to conventional chocolate due to its lower cost. Therefore, according to growing demand by consumer for low- ...
  2. [2]
    Compound Chocolate – Understanding Ingredients for the ...
    Compound chocolate, also called coating chocolate, is commonly used in baking. It contains hard fat, cocoa, milk solids, and sugar, and lacks cocoa butter.
  3. [3]
    CPG Sec 515.800 Labeling of Products Purporting to be "Chocolate ...
    Feb 20, 2015 · A product can be labeled "chocolate" if it has no artificial chocolate flavor, uses cacao-compliant flavoring, or if consumers don't expect a  ...
  4. [4]
    https://www.ecfr.gov/current/title-21/chapter-I/subchapter-B/part-163
  5. [5]
    Chocolate Compound Coatings – How Are They Made?
    Sep 21, 2020 · “The Code of Federal Regulations refers to compounds as “cocoa/chocolate and vegetable fat coatings. ... Compound coatings are often used to fully ...
  6. [6]
    Chocolate FAQs - Cargill
    A compound is a blend of sugar, vegetable oil and other products, which may or may not include cocoa powder and/or chocolate liquor.
  7. [7]
    What's the Difference Between Real Chocolate and Compound ...
    Real chocolate is made of cocoa mass and cocoa butter, while compound chocolate is made of cocoa powder and vegetable fat. According to FAO, for a product to be ...
  8. [8]
    What is Compound Chocolate?: The Benefits in Baking
    ### Summary of Compound Chocolate Uses in Confectionery
  9. [9]
    Physically Modified Plant Oils as Alternatives to Palm Fat - NIH
    Mar 28, 2025 · However, growing environmental and social concerns regarding palm oil production have prompted the industry to seek sustainable alternatives to ...
  10. [10]
    [PDF] Review of cocoa butter and alternative fats for use in chocolate-Part ...
    The fatty acid composition of seven cocoa butter substitutes made from different vegetable fats is given in Table 23. CBS from sal fat (Shorea robusta). Sal ...
  11. [11]
    Rise and fall of trans fat: A history of partially hydrogenated oil
    Nov 7, 2013 · Trans fat was the first man-made fat to become part of our food supply more than a century ago when a German scientist presented Procter & Gamble with ways to ...
  12. [12]
    How the legacy of colonialism built a palm oil empire - Mongabay
    Jun 26, 2020 · Early 20th century Europe was rapidly industrializing and increasingly reliant on products produced in colonized territories.
  13. [13]
    Short but not so sweet: food rationing during World War II
    Jan 9, 2020 · Two years later, on 26 July 1942, chocolate and sweet rationing began. Many popular sweets, such as flying saucers and lemon sherbets, were ...Missing: cocoa | Show results with:cocoa
  14. [14]
    The transformation of the global palm oil cluster: dynamics of cluster ...
    Oct 31, 2018 · Unilever and the Southeast Asian palm oil boom, 1950s–1960s. Whereas in the immediate post-war period Africa drove the development of palm oil ...
  15. [15]
    Our History | Blommer Chocolate Company
    By 1948, our business had grown and warranted expansion ... Blommer combines with Fuji Oil Holdings to build third largest global chocolate and compound business ...
  16. [16]
    Compound Chocolate Market Report 2025 (Global Edition)
    Global Compound Chocolate market size 2021 was recorded $23891.8 Million whereas by the end of 2025 it will reach $28820 Million. According to the author, ...
  17. [17]
    Compound Chocolate Market Size, Growth, Trends and Forecast
    Compound Chocolate Market is anticipated to expand from $3.5 billion in 2024 to $6.8 billion by 2034, growing at a CAGR of approximately 6.9%.
  18. [18]
    None
    ### Production Steps for Protein-Fortified Chocolate Compound Coating
  19. [19]
    Compound Chocolate: Understanding the Basics of ... - Loyal
    Aug 30, 2024 · Compound chocolate can use vegetable fat primarily used in soap instead of cocoa butter, which changes it considerably, enhances the ease of production, and ...
  20. [20]
    [PDF] RHEOLOGICAL PROPERTIES OF COMPOUND COATINGS
    The steps in the manufacturing process are roughly the same for compound coatings as it is for chocolate, but there are differences in temperature regimes.
  21. [21]
    Compound chocolate production equipment - Making.com
    Processing steps involved in compound chocolate making · Ball mills · Cooling · Cooling tunnels · Decorating · Milling · Moulding · Roasting.
  22. [22]
    What’s the difference between compound chocolate and real chocolate?
    ### Sensory and Quality Differences Between Compound Chocolate and Real Chocolate
  23. [23]
    https://www.ethelm.com/en-us/blog/chocolate-basics/how-to-store-chocolate
  24. [24]
    https://cococochocolatiers.com/blogs/chocolate-blog/what-is-the-difference-between-couverture-chocolate-and-compound
  25. [25]
    How to handle variations in chocolate viscosity - G&D Machinery
    Nov 22, 2024 · Adjustments: Based on viscosity measurements, adjustments can be made by adding more cocoa butter or emulsifiers to achieve the desired ...Missing: compound | Show results with:compound<|control11|><|separator|>
  26. [26]
    https://harshchocolates.com/blogs/news/a-short-guide-to-understanding-chocolate
  27. [27]
    Bloom-resistant compound chocolate
    Sugar bloom occurs when there are water drops on the surface of the chocolate due to humidity or condensation, and the sugar begins to dissolve in these drops.Missing: moisture | Show results with:moisture
  28. [28]
    Enrobing in the confectionery industry - New Food magazine
    Mar 5, 2014 · An advantage of compound coatings is that they may set faster and no tempering (the process in which chocolate masses are thermally treated to ...Missing: easter eggs truffles color toppings seasonal novelties spray
  29. [29]
    Chocolate vs. compound coatings: Each has advantages | 2021-07-13
    Jul 13, 2021 · Compounds contain cocoa powder and a different form of fat, so they don't need tempering. This makes them easier to work with and more cost ...Missing: nuts fruits molding easter eggs solidification variations examples toppings seasonal novelties techniques spray injection
  30. [30]
    https://gygi.com/blogs/chocolate/mixing-it-up-with-colored-compound-chocolate
  31. [31]
    Uses of Chocolate Compound in the Food Industry - Cocoa Nusa
    Jun 18, 2025 · It can be used to enrobe nuts, fruits, and candies, or to create a delicious outer shell for ice creams and pastries.Missing: easter eggs solidification examples toppings seasonal novelties spray injection
  32. [32]
    Dark Compound Chocolate Chips M - Barry Callebaut
    They are non-vibrated, for non-added sugar oriented baking and cereal applications. Bake stable thanks to the low fat content.
  33. [33]
    Compound Chocolate - Puratos
    Whether you are looking for solutions for moulding, dipping, panning, decorating, flavouring or bake-stable applications, Carat compound chocolates will offer ...
  34. [34]
    Compound coatings for Confectionery, Bakery & Pastry
    Chocolate and compound coatings serve the same purpose: to add an extra chocolaty or flavored layer on a sweet treat. But they differ on one key characteristic, ...Missing: easter eggs truffles solidification variations examples toppings seasonal novelties techniques spray injection
  35. [35]
    Coatings and drizzles help add nutritional value to baked goods and ...
    Feb 12, 2016 · “Customers can finish their cakes and cookies with a shiny compound coating that has a clean cut and is touch dry, making it easier to package.<|control11|><|separator|>
  36. [36]
    Sensory preference and bloom stability of chocolate containing ...
    In addition, the CBS from palm kernel has good oxidative stability, therefore, the chocolate made from these CBS has a good resistance to fat bloom (Nor Aini ...Missing: shelf | Show results with:shelf
  37. [37]
    https://doi.org/10.1016/j.focha.2023.100515
  38. [38]
    Cocoa Butter Substitute Coating Type - Latamarko
    Lauric-based vegetable fat. Form, Solid block / flakes / liquid. Color, Light cream. Odor / Flavor, Clean, neutral. Melting Point (°C), 32 – 34. Slip Point (°C) ...
  39. [39]
    Physical characteristics of compound chocolate made with various ...
    Physical characteristics of compound chocolate made with various flavouring agents produced using melanger as a small scale chocolate processing device. Z ...
  40. [40]
    https://www.barry-callebaut.com/en-ID/manufacturers/products/dark-chocolate-chunks-barry-callebaut/ISM-CU-R16V2S-S66
  41. [41]
    Dark Compound Chocolate Chunks M (Regular) - Barry Callebaut
    Ordering. Product SKU. Order codes. ISM-CU-R16V2S-S66. 14KG Carton Box. Shelf life: 18 months ... Dark Compound Chocolate Chips M. Signature dark medium-sized ...
  42. [42]
    What is the density of chocolate? - Quora
    Sep 27, 2014 · So the density of a whole chocolate bar is 15 / 10 = 1.5 g/cm3. Sub ... Compound (chocolate solids + vegetable fats or another oil). Upvote ·.
  43. [43]
    Compound Chocolate Vs Real Chocolate: What's The Difference?
    ### Sensory and Quality Differences Between Compound Chocolate and Real Chocolate
  44. [44]
    Differences Between Chocolate Compound And Real Chocolate
    Aug 3, 2022 · Real chocolate uses cocoa butter and cocoa liquor, while compound uses vegetable fat and cocoa powder. Real chocolate melts quickly, compound ...<|control11|><|separator|>
  45. [45]
    Real Chocolate vs Compound Coating: Choosing the right product ...
    Jul 17, 2025 · Compound coating, often referred to as “compound chocolate” (though ... Snap: May not have a distinct snap, or the snap might be softer or crumbly ...
  46. [46]
    FDA Chocolate Regulations Guide | Registrar Corp
    Oct 28, 2015 · FDA regulations require milk chocolate to have at least 10% chocolate liquor, 3.39% milkfat, and 12% milk solids. White chocolate needs 20%  ...
  47. [47]
    None
    ### Summary of Directive 2000/36/EC
  48. [48]
    https://fssai.gov.in/upload/uploadfiles/files/Clarification_Chocolate_19_02_2020.pdf
  49. [49]
    [PDF] 1. Chocolate means a homogeneous product obtained by ... - FSSAI
    Feb 19, 2020 · In case of chocolate which contain vegetable fats other than cocoa butter, it shall have the following label declaration in bold: “CONTAINS ...
  50. [50]
    [PDF] 3.1.1: - FSSAI
    Jul 23, 2015 · contain greater than 5% vegetable fat (other than ... include: compound chocolate, flavoured and coloured compound chocolate, compound.
  51. [51]
    [PDF] Standards for Chocolate and Chocolate Products (CODEX STAN 87 ...
    Chocolate and chocolate products shall be prepared from cocoa and cocoa materials with sugars and may contain sweeteners, milk products, flavouring substances ...
  52. [52]
    https://www.santabarbarachocolate.com/dark-compound-chocolate-specifications/
  53. [53]
    Properties of Palm Oil | Oklahoma State University
    Health Effects​​ Highly saturated tropical oils such as palm oil have been linked to higher risk of cardiovascular problems.Missing: compound | Show results with:compound
  54. [54]
    Dark compound choclate – Toren - Open Food Facts
    Jul 22, 2020 · Nutrition facts ; Energy, 1,992 kj (476 kcal), -9% ; Fat, 28.7 g, -4% ; Saturated fat, 20 g, -13% ; Carbohydrates, 62.4 g, +9%.
  55. [55]
    Cocoa and Chocolate in Human Health and Disease - PMC
    Cocoa powder is made by removing some of the cocoa butter from the liquor. Chocolate is a solid food made by combining cocoa liquor with cocoa butter and sugar.
  56. [56]
    Trans fats—sources, health risks and alternative approach - A review
    Research has proved the direct connection of trans fatty acids with cardiovascular diseases, breast cancer, shortening of pregnancy period, risks of ...
  57. [57]
    Does chocolate contain trans-fats or hydrogenated oils? - Puratos
    While in most markets, trans-fats have been entirely removed from those products, trans-fat may still be present in a few markets. Puratos has been working on ...
  58. [58]
    Low GI Food of the Month – Glycemic Index
    Chocolate has a GI around 45, doesn't greatly impact blood glucose, and has antioxidants. It's energy dense, and high in fat.Missing: compound | Show results with:compound
  59. [59]
    https://glycemicindex.com/2006/11/low-gi-food-of-the-month-12/
  60. [60]
    Palm Oil's Environmental Impact: Can It Be Grown Sustainably?
    Jun 4, 2021 · The palm oil industry is responsible for huge amounts of deforestation, greenhouse gas emissions, and pollution.Missing: considerations | Show results with:considerations
  61. [61]
    By the way, doctor: Is palm oil good for you? - Harvard Health
    Jul 23, 2024 · Trans fat not only increases LDL and triglyceride levels, but also reduces "good" HDL cholesterol. Most trans fat is artificially created ...