Why Microcrystalline Wax is the Secret Behind Long-Lasting Beauty and Industrial Excellence!

Introduction

Microcrystalline wax is a highly refined petroleum-based wax widely used across multiple industries. Unlike paraffin wax, it contains a higher percentage of branched hydrocarbons, making it denser, more flexible, and adhesive. If you're looking for microcrystalline wax manufacturers, microcrystalline wax suppliers, or microcrystalline wax near me, it’s essential to understand its properties and applications. Choosing the best microcrystalline wax provider ensures quality and performance.

What is Microcrystalline Wax?

Microcrystalline wax is a type of wax obtained from the de-oiling of petrolatum during petroleum refining. Unlike paraffin wax, it has smaller crystals and a higher melting point, making it more durable and elastic. It is available in different forms, such as microcrystalline wax beads and pellets.

Microcrystalline Wax Properties

Flexibility and Adhesion: Higher flexibility compared to paraffin wax.

Color Variations: Available from brown to white microcrystalline wax, depending on refinement.

Melting Point: Typically between 60-93°C (140-200°F).

Water Resistance: Excellent water-resistant properties.

Viscosity and Density: Higher than paraffin wax.

Microcrystalline Wax vs. Paraffin Wax

When comparing microcrystalline wax vs. paraffin wax, microcrystalline wax is superior in flexibility, adhesion, and strength. Paraffin wax has a larger crystal structure, making it brittle, whereas microcrystalline wax is softer and more elastic.

Microcrystalline Wax Uses

1. Microcrystalline Wax in Cosmetics

Used in lipsticks, eyeliners, and mascaras to enhance texture and durability.

Found in microcrystalline wax for skin products like lotions and creams for smooth application.

Microcrystalline wax for hair is used in pomades and styling products for added shine and hold.

2. Microcrystalline Wax for Candle Making

Provides better fragrance retention.

Ensures longer burn time compared to paraffin wax.

3. Industrial Applications of Microcrystalline Wax

Adhesives and Sealants: Used in bookbinding and rubber manufacturing.

Sports Equipment: Applied on skis and hockey sticks for reduced friction.

Grease and Lubricants: Used as a thickener in grease formulations.

Microcrystalline Wax Chemical Structure

Composed of high molecular weight saturated aliphatic hydrocarbons, mainly isoparaffinic and naphthenic hydrocarbons, with a smaller and more flexible crystalline structure than paraffin wax.

How to Use Microcrystalline Wax?

How to melt microcrystalline wax: Heat it slowly in a double boiler or controlled heating device.

How to use microcrystalline wax: Mix it with other ingredients in cosmetics, adhesives, or candles.

Is Microcrystalline Wax Vegan?

Although microcrystalline wax is derived from petroleum and contains no animal products, its sourcing and processing might not always align with vegan standards. Always verify with microcrystalline wax suppliers.

Where to Buy Microcrystalline Wax?

For those searching where to buy microcrystalline wax, it is available in different forms such as bulk microcrystalline wax for large-scale production. Microcrystalline wax price varies based on quality, grade, and quantity.

Microcrystalline Wax MSDS (Material Safety Data Sheet)

The microcrystalline wax MSDS provides safety guidelines for handling and storage, including toxicity, flammability, and best practices.

Microcrystalline Wax Price and Buying Guide

Microcrystalline wax in bulk is cost-effective for industrial use.

Microcrystalline wax in wholesale ensures better pricing.

Check with microcrystalline wax sellers for the latest pricing and discounts.

Conclusion

Microcrystalline wax is an essential ingredient in cosmetics, candles, and industrial applications. Whether you need microcrystalline wax manufacturers, microcrystalline wax suppliers, or are searching for microcrystalline wax near me, choosing a trusted supplier is crucial. If you're looking for the best microcrystalline wax, Shree Krishna Enviro Venture Private Limited is a reliable source offering high-quality microcrystalline wax in bulk. Contact us today for all your wax supply needs!

Micro Crystalline Wax is a versatile and valuable component in various industries. Known for its unique properties, it has found applications in everything from cosmetics to industrial manufacturing. In this comprehensive guide, we'll explore what micro crystalline wax is, its benefits, and how it's used across different sectors.

What is Micro Crystalline Wax? Micro Crystalline Wax, often referred to simply as microcrystalline wax, is a type of wax derived from petroleum. Unlike paraffin wax, which is more crystalline and brittle, micro crystalline wax has smaller crystals, making it more flexible and adhesive. This wax is produced by de-oiling petrolatum and refining the remaining waxy material to achieve the desired consistency and properties.

Key Properties of Micro Crystalline Wax Micro Crystalline Wax stands out due to its unique properties:

Flexibility: Unlike other types of wax, micro crystalline wax is highly flexible, which makes it ideal for applications that require pliability. Adhesiveness: Its excellent adhesive properties make it useful in various industrial applications, including coatings and adhesives. Oil Retention: Micro crystalline wax can hold and retain oil, which is beneficial in cosmetic formulations to provide moisture and protection. High Melting Point: This wax has a higher melting point compared to paraffin wax, making it suitable for applications that require heat resistance.

Art restorer brain: OK first I need to fix the paint layer and prevent further spallation with consolidant, then mix up some half-oil ground with earth pigment to replace the lost gesso, then I'll retouch with pigment mixed with cold-pressed microcrystalline wax for bulk and let it dry, after that I can add a little varnish to get the refractive index of the surface as close to the original as possible, might require a small quantity of matting agent

Werewolf brain: ........hungry

-looks at my backlog of work-

Yeah but all that stuff is complicated and difficult, what if I drew werewolf art on company time instead

Yves Saint Laurent Rouge Pur Couture Lipstick

Price: $38.00

Shade: Le Rouge

Claims: In just one stroke, luxurious and highly pigmented color dresses the lips with intense hydration and antioxidant care. In a signature couture jewel-like packaging, Rouge Pur Couture delivers the promise of edgy style and ultimate feminine strength.

Ingredients:

Octyldodecanol: An emollient and emulsifier and solvent. It is a clear, colorless liquid that is often seen as a thickener in moisturizers because of its lubricating and emollient properties. Helps to form emulsions and prevents formulas from separating into its oil and liquid components. It can also reduce the tendency of finished products to generate foam when shaken. Acts as a lubricant on the skin, giving a soft, silky feel.

Butyloctyl Salicylate: The simplest aromatic carboxylic acid. A colorless, crystalline solid naturally found mostly in berries and essential oils. Mainly acts as a PH adjuster and preservative, although it can also be used to add fragrance to a product.

Stearyl/Ppg-3 Myristyl Ether Dimer Dilinoleate: It is an emollient and skin conditioning agent.

Neopentyl Glycol Diheptanoate: Mixture of texture-enhancing ingredient neopentyl glycol and grape-derived fatty acid heptanoic acid. The compound functions as a non-aqueous skin-softening agent and thickener.

Pentaerythrityl Tetraisostearate: Non-aqueous ester that functions as a thickener and binding agent, derived from the ingredient isostearic acid.

Bis-Diglyceryl Polyacyladipate-2: A sticky paste, semi-solid emollient often used as a lanolin substitute. It's valued for its high water-binding properties, excellent adhesion to the skin and glossy finish.

Polyethylene: Form of plastic (synthetic polymer) that has numerous functions in cosmetics products. Rounded polyethylene beads serve as an abrasive agent in many facial scrubs, often used instead of overly abrasive alternatives like walnut shells and ground fruit pits. Also used as a stabilizer, binding agent, thickener, and film-forming agent.

Microcrystalline Wax: Plastic-type, highly refined wax derived from petroleum and purified for use in cosmetics. Used as a thickener and to give products a semi-solid to solid smooth texture.

Polybutene: A oligomeric oil, sometimes derived from petroleum, that is used in its hydrogenated form, as a binder, epilating agent, thickener and lubricant. It is naturally tacky or sticky and is also used for its adhesive properties.

Hydrogenated Coco-Glycerides: A naturally derived emulsifier from glucose and vegetable oils, made of renewable vegetable sources. This skin-conditioning agent forms a barrier on the skin's surface to reduce water loss and softens skin.

Candelilla Wax: Used to protect the skin against moisture loss.

Titanium Dioxide: An earth mineral used in sunscreens that is capable of blocking both UVA and UVB rays; also used as a pigment.

Silica Dimethyl Silylate: A silica derivative used as an anti caking agent, bulking agent, slip modifier, viscosity increasing agent, emollient, and most often as a suspending agent. It is often found in cosmetics because of its ability to thicken while moisturizing, and provide long-lasting wear.

Tocopheryl Acetate: Its substantiated benefits include enhancing the efficacy of active sunscreen ingredients, reducing the formation of free radicals from exposure to UV rays, promoting the healing process, strengthening the skin's barrier function, protecting the skin barrier's lipid balance, and reducing transepidermal water loss. Attributed with antioxidant, anti-aging, moisturizing, anti-inflammatory, and enhanced SPF properties, tocopherol acetate is valued both as a dietary supplement and skincare active. 

Caprylyl Glycol: Skin and hair conditioning agent that may be plant-derived or synthetic. Often used as part of a preservative blend in cosmetics. 

Water: Primarily used as a solvent in cosmetics and personal care products in which it dissolves many of the ingredients that impart skin benefits, such as conditioning agents and cleansing agents. Water also forms emulsions in which the oil and water components of the product are combined to form creams and lotions.

Mannitol: A plant-derived or lab-made sugar that works in skin care to bind moisture, condition, and also help keep ingredients blended together. It works well with naturally-occurring substances in skin such as hyaluronic acid.

Acacia Senegal Gum: Herb that can have skin soothing properties, but is used primarily as a thickening agent.

Glyceryl Stearate: It acts as a lubricant on the skin’s surface, which gives the skin a soft and smooth appearance. It easily penetrates the skin and slows the loss of water from the skin by forming a barrier on the skin’s surface. It has been shown to protect skin from free-radical damage as well. Used to stabilize products, decrease water evaporation, make products freeze-resistant, and keep them from forming surface crusts. Reduces the greasiness of oils used in certain cosmetics.

Lecithin: Phospholipid found in egg yolks and plants. Widely used in cosmetics as an emollient and water-binding agent. Also has skin-restoring ability.

Tocopherol: Used as an antioxidant and skin conditioner.

Ascorbyl Palmitate: Stable and nonacidic form of vitamin C that is effective as an antioxidant. Particularly effective at reducing environmental damage.

Butylene Glycol: Commonly-used ingredient that has multiple functions in cosmetics, including as a texture enhancer. It’s similar to propylene glycol, but has a lighter texture.

Rosemary (Rosmarinus Officinalis) Extract: Provides moisturizing benefits to support natural skin restoration. 

Yeast (Faex) Extract: Comprised of a complex mixture of proteins, sugars, and amino acids, it acts as an excellent humectant and supports natural cell turnover in the skin. 

Daucus Carota Sativa (Carrot) Root Extract: Also known as wild carrot. It can have antioxidant properties, but applied topically it can cause sensitivity.

Retinyl Palmitate: A form of vitamin A that is used to promote natural cell turnover, elasticity, and suppleness and minimize the appearance of fine lines.

Citric Acid: An alpha hydroxy acid and astringent with antioxidant properties; used to help skin maintain its natural pH level or adjust the pH of a product.

Mica: Earth mineral included in products to give them sparkle and shine. The level and look of the shine mica provides depends on the color and how finely it’s milled. Mica's sheer, translucent and skin-hugging properties make it a popular ingredient in mineral powders. Mica powder reflects light from the face because of its glittering or shimmering properties, and can create the illusion of a smoother, softer and more radiant skin tone.

Iron Oxide: Natural oxides of iron (iron combined with oxygen); pigments are used to enhance colors in cosmetics.

Titanium Dioxide: An earth mineral used in sunscreens that is capable of blocking both UVA and UVB rays; also used as a pigment.

Calcium Sodium Borosilicate: Use calcium sodium borosilicate as a bulking agent to give products structure.

Propylene Glycol Dibenzoate: Skin-Conditioning Agent

Ammonium Glycyrrhizate: This nourishing natural ingredient helps to keep your skin in a good condition.  Its soothing and moisture-retaining properties can make your skin look firmer and smoother.

My Thoughts: I was able to get a sample size of Yves Saint Laurent Rouge Pur Couture Lipstick from Sephora Rewards Bazaar. It came in the color Le Rouge which is a blood red shade. The lipstick comes in a beautiful square gold casing. The casing is mirrored, which was nice for touch ups when needed. Yves Saint Laurent does offer different designs for the golden casing but for an additional cost. For me plain gold is just fine, especially since Yves Saint Laurent is not cheap!

Le Rouge texture is thin and silky texture with a satin finish, which makes it glide on the lips smoothly. Most times I get an even coat in just one swipe with intense pigment. However on some cases when Le Rouge was too silky it would come out sheer and I would have to apply another coat. No matter how many coats I use my lips always feels comfortable and lightweight. I was very surprised the thin texture was able to pack my lips with an intense hydration. I notice if I didn’t wear a lip liner Le Rouge would bleed, with lip liner it did stop a bit but not all the way. The casing mirror came in handy a lot because I found that Le Rouge I would get some on my teeth, it helped so I didn’t have to rummage through my endless bag for a mirror. Luckily the lipstick easy to wipe off if it gets on my teeth. Without eating or drinking the lipstick would last me 4 hours, than fades to a stain. With drinking I would have to touch up every now and than because it does transfer a lot. When it came to eating it turned into a stain. Total removal of Le Rouge does require a makeup remover.

Would I purchase Yves Saint Laurent Rouge Pur Couture Lipstick? No its a little too messy for me with all the bleeding and transferring especially for the price point.

Pros:

Beautiful square mirrored gold casing

Mirrored part be used for touch ups

Thin & silky texture 

Satin finish

Smooth application

One swipe has intense pigment

Comfortable & lightweight

Hydrating

Without eating and drinking last 4 hours

Fades to stain

Cons:

Designed casing cost additional

Sometimes its too silky and the pigment becomes sheer

Does tend to bleed even with lip liner

Gets on teeth

Transfers a lot

Have to use makeup remover to get it completely off 

Expensive

If you found this review helpful please click on the heart or reblog. Feel free to reply with your thoughts on the product.

Micro Crystalline Wax Bulk

Micro Crystalline Wax Bulk

Micro crystal wax is a refined synthetic wax with similar microcrystalline properties. As an experienced micro crystal wax manufacturer, we provide micro crystal wax with the characteristics of good gloss, high melting point, and light color. The structure of micro crystal wax for sale is compact, firm, and smooth.

 It can be melted with various natural waxes and can increase its low degree. The melting point of this industrial wax improves the micro crystalline waxes' properties. The micro crystal wax itself is as white as jade and generates light by friction, which has an extremely beneficial effect on the production of light-colored products. It is mainly composed of C30-50 cycloalkanes and a small amount of normal and isoparaffins. This micro crystalline wax for sale has the characteristics of high melting points and is amorphous. The melting point of micro crystalline wax is generally 54.4℃ to 90.6℃. Compared with paraffin wax, micro crystal wax is tough and not easily broken. Most grades of microcrystalline wax have plasticity. As a good micro wax manufacturer in China, we provide light yellow and milky white micro crystal wax in terms of color. If you are interested in our products, please contact us.

 Features of Micro Crystal Wax for Sale

01

Good gloss, high melting point, light color, etc.

 02

Compact, firm, and smooth structure.

 03

Tough and not easily broken.

 04

High melting point, amorphous.

 Micro Crystal Wax Specification

Standard: SH/T 0013-2008                                       

 Test item

Standard

Test Method

Drop Melting point     

67<87

GB/T 8026

Oil content%                             

≤3.0

SH/T 0638

Color                                    

≤3.0

GB/T 6540

Needle Penetration(25℃,100g), 1/10mm      

≤30

 Needle Penetration(35℃,100g), 1/10mm

 GB/T 4985

Kinematic Viscosity(100℃), mm²/s             

≥6.0

GB/T 265

Water Soluble Acid And Alkali

Null

SH/T 0407

 Micro Wax Uses

The micro crystal wax uses is a glazing agent, rust inhibitor, carbon paper, candles, packaging dipping, and fruit coating for paste products; also used in cosmetics, crayons, shoe polish, various glazing waxes, etc.

 Micro Crystal Wax VS Paraffin Wax

Micro crystal wax and petroleum-based wax are both extracted from oil and have many similar characteristics and applications. However, there are some key differences well. One of the biggest differences is at the molecular level. Different molecular sizes of different materials, and microcrystalline wax has more branched molecular structures than paraffin wax.

 This molecular composition makes slightly different properties of each type of wax. Paraffin wax has a lower melting temperature and better combustion properties, which is why this material is ideal for making candles. These waxes are also the better moisture-proof barriers. Microcrystalline wax tends to be thicker and stiffer but has better flexibility and elasticity. These waxes are also better applied in adhesive products. Paraffin is usually colorless or pale blue, while the microcrystalline wax varies from white to dark brown.

 Micro Crystal Wax Packaging and Storage

As a professional micro wax manufacturer, we offer a 50kgs woven bag and a 25kgs carton with plastic waterproof outer lining, Store indoors to isolate the influence of sunlight and temperature on microcrystalline wax.

https://www.myerswax.com/products/micro-crystal-wax/

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juniper publishers Preparation of Nc-Si/A-Sio2 Multi-Layer Thin Film Specimens for TEM Cross-Section Observation by Cryo Argon Ion Slicing Abstract The nanocrystalline silicon (nc-Si) thin films have received a wide attention in the field of third generation solar cells. In this work, the amorphous hydrogenated a-Si: H/a-SiO2 multi-layered films were deposited by plasma enhanced chemical vapour deposition (PECVD). Then the as-deposited thin film was annealed at 1100 °C to obtain nc-Si/a-SiO2 multilayer The structure of the as-deposited and annealed thin films was studied by X-ray diffraction (XRD) analysis. This article mainly reports about the Cryo Ar+ ion slicing (milling) method for the preparation of ultrathin nanocrystalline silicon and silicon dioxide (nc-Si/a-SiO2) multilayer specimen for cross-section transmission electron microscopy (XTEM) analyses. The Ar+ ion slicing method includes several initial preparation steps such as cutting, gluing and mechanical thinning. This slicing procedure results a minimum trial, high yield, and sufficiently thin cross-section without any artifacts for the high resolution transmission electron microscopy (HRTEM) observation. The textured multi-layers and the thickness of nc-Si/a-SiO2 were analysed from TEM and HRTEM images. The nanocrystalline Si of dimension about 10nm was observed in the crystalline layer. Keywords: Ar+ ion slicing; Nc-Si/a-SiO2 multi-layers; XTEM; XRD; Microstructure Abbreviations: (nc-Si): Nanocrystalline Silicon; (PECVD): Plasma Enhanced Chemical Vapour Deposition; (XRD): X-ray Diffraction; (HRTEM): High Resolution Transmission Electron Microscopy Go to Introduction Silicon multi-layered thin films are subject of the recent research to play a key role in solar cell technology. The morphological analyses of the textured nc-Si/a-SiO2 multilayer semiconducting thin films are significant for the fabrication of solar cells. Besides the intrinsic properties, the structural properties have a great impact on the performance based on the quality of the interface between the layers. Also, the reproducibility is important for the commercial production and textured thin layer with high quality is needed for high efficiency. Hence, the analyses of size, structure and morphology of the thin layers are important to fulfil the above said requirements. Recently, large efforts have been put on the manufacturing of thin films to improve the efficiency of amorphous and microcrystalline silicon based solar cells [1-6]. The main intention on the development of such materials in solar industry (3rd generation of solar cells) is to reduce the usage of materials and deposition costs, and also to increase the efficiency of the photovoltaic devices. The major issue to be solved is to shift the absorption in Si nanostructures to higher energies compared to the bulk material utilizing the quantum confinement effect, while ensuring an efficient charge carrier transport. The quantum confinement can be well controlled by the size of nanostructures and by the properties of the barrier material (SiO2) [7-9]. Hence, the nc-Si/a-SiO2 multi-layers of thin film were preferred for the investigation. A crucial part of this research is the micro structural analysis of the multi-layer films, whereby the factors of interests are the grain distribution, texture, thickness of the layer and orientation of film structure [10,11]. For such characterization, crosssectional transmission electron microscopy (XTEM) is a very essential tool enabling to study the structure, phase, defects and interfaces. The most convenient geometry to study the thin layers and their interfaces is to direct the electron beam perpendicular to the cross section of the film (layer). For such an analysis, it is necessary to make the film electron transparent in a direction perpendicular to the interfaces (film). The preparation of cross-sectional specimens is usually done by fabricating a sandwich structure (Si substrate/Thin film/Glue/Cover glass) and subsequently thinning it in the direction perpendicular to its cross-section (perpendicular to film surface) to make transparent (thickness of the order of <50nm) for electrons. The preparation of cross-section specimens is time-consuming, specimen-dependent and consequently a trial-and-error method. However the features of XTEM observations are more informative compare with the observations of scratched samples of thin films. In this paper, a Cryo Ar+ ion slicing (milling) procedure was successfully used for the preparation of (nc-Si/a- SiO2) specimen for TEM analyses. Go to Experimental Details Thin film fabrication Initially, amorphous hydrogenated a-Si: H/a-SiO2 multi-layered films were deposited in a radio frequency (13.56MHz) plasma enhanced chemical vapour deposition (PECVD) system (SAMCO 220N) using SiH4 and N2O as precursor gases. Samples with total thickness of600 nm were prepared on Si (100) substrate in the form of multi-layers composed of alternating uniformly thick sub-layers (15nm a-SiO2 and 10nm a-Si: H) followed by a final SiO2 capping layer of the same thickness (Figure 1). First, always a thin a-SiO2 sub-layer was obtained by decomposition of N2O (120sccm) +SiH4 (60sccm) gas mixture applying an RF power of about 50W. Then a sub-layer of a-Si: H was deposited by decomposition of SiH4 (10% SiH4+90% Ar; 250sccm) applying an RF power of about 40W. The substrate temperature of 250 °C and the total reaction pressure of 67 Pa were held constant during the depositions on the grounded substrates. The deposition rate was about 1nm/s. Subsequently, the as-deposited multi-layered films were heat-treated (annealed) in a high-temperature vacuum chamber HTK 1200N (Anton Paar) at a temperature of 1100 °C in vacuum (at ~10'3Pa). Due to the heat treatment, the hydrogen is eliminated and the amorphous phase of the silicon is converted into nanocrystalline silicon (nc-Si). Click here to view Large figure 1 XTEM specimen preparation Preliminary steps/procedure The multi-layer thin film cross-section preparation depends on Ar+ ions milling machine, in our case the Cryo Ion Slicer from JEOL was used. Samples for milling have to be fit in dimension 3x0.5x0.1mm of rectangular block (Figure 2) with parallel and perfectly polished surfaces. Thinning area will be created parallel with large surface of the block, and the intended layer must be perpendicular to the thin film surface for TEM observation. To accomplish the required conditions, the sample is prepared by diamond cutting and polishing. Initially, thin film is protected by 80μm thick cover glass glued with the sample at ~130 °C for 15min (using the G2 Epoxy Glue with hardener at a ratio of 10:1). The sandwich of substrate/thin film/glue/ cover glass was mounted with wax (melted at ~130 °C) on a clean glass plate with the substrate surface facing the glass plate. Further, thin rectangular pieces with dimensions approximately 0.5mmx2.5mm were cut by diamond saw cutter (Buehler- IsoMet). The pieces were arranged on a thick glass plate (cover glass facing down) and glued by white-wax with a piece of reference sample (100μm black twin-blade razor) to the glass plate. Then the glued thick glass was fixed in a centre-axis holder of the JEOL Handy Lap polisher. The base of the Si-substrate (0.7mm) was thinned down to a thickness of 0.5mm using 30μm, 6μm and 1μm diamond sheets, subsequently. Then the sides of the samples were polished with similar procedure to get smooth surfaces. The samples were turned on one side, glued, polished and then turned on the other side, glued again and polished down to a thickness of 100μm which results the required sandwich structure with dimensions of 3mmx500μmx100μm as shown in Figure 2. Then a suitable piece for ion slicing was cleaned with acetone to remove the white wax and dirt. Click here to view Large figure 2 Preparation of TEM cross-section by two-step ion milling The ion slicing was carried out in a JEOL 1B-09060C1S cryo ion slicer with the ion accelerating voltage range of 1-8kV, milling speed of 5μm/min, incident angle of 4.5 °C and cooling temperature of the specimen stage -100 °C or less. The high vacuum conditions (pressure on the order of 10-4Pa) ensure an efficient evacuation of the particles sliced from the sample and thus a good efficiency and precision of the milling process. The ion source (gun on top) has the capacity to tilt ion beam from vertical to ±6 degrees. Before starting the use of the ion milling, it is necessary to complete the initial adjustment of the Ar gas (99.9999%) flow rate to optimized ion beam and position adjustment of the beam. Then, a cleaned specimen was mounted carefully on a specimen holder jig using an aligning standard kit. In the reported thin films, two types of slicing methods were used, namely the two-step method and the bulk sample method. In the two-step method, the sample is fixed in the ion slicer with the cover glass facing up, i.e., facing the ion gun. Then the shielding belt with a thickness of 10μm was introduced just above the specimen to prevent and make a thinner part of the sample. The acceleration voltage of 6.5kV and the tilt angle amplitude of 0 °C were set for the first step. The sample was milled by the ion source from above to create a thinning of the sandwich structure in the specimen (down to the bottom-substrate) with a thickness corresponding to the thickness of the cover belt (10μm). The width of the thinned area corresponds to the width of the ion beam. The sample was turned to the opposite side (with the substrate side facing the ion source) and the shielding belt was removed from the second step. The same acceleration voltage and pressure were maintained, but the beam tilt angle amplitude was set to 4.5° (for each 60s). The tilting of the ion source occurs in the plane perpendicular to the thinned surfaces. After a certain time, a “valley” forming in the cover glass reached the thin film layer. At this moment, a fine milling was introduced to remove the amorphous part and artifacts produced during milling to get a smooth surface of the cross-section. For the fine milling, an acceleration voltage of 2-2.5kV and beam tilt angle amplitude of 4.5 °C (30s) was applied for 10-15min. Finally, a thickness in the range from 10nm to 100nm was achieved in a small region in the area of the thin film (perpendicular to the cross-section of the thin film). A very thin cross-section of ~10nm could be used to obtain high resolution TEM images. The as-prepared specimen is shown in (Figure 3a). Click here to view Large figure 3 Preparation of TEM cross-section by the bulk sample ion milling (one step method) In the case of the bulk sample method, the initial procedures to fix the sample are the same as the two-step method. The beam tilt angle amplitude was set between 1.5-2° (60s) for the bulk method. The sample was milled to create a thin hole at the interface between the thin film and the cover glass as shown in Figure 3b. Tilting angle is connected to the position of the hole in the sample. The edges of the thin hole have a thickness of about 10-100nm. Once a region with brown colour developed, care had to be taken to prevent the formation of a large hole. At this moment, fine milling was introduced as in the case of the two- step method to get the XTEM specimen. Characterization by XRD, TEM and HR-TEM High-resolution transmission electron microscopy (HRTEM) was carried out using the transmission electron microscope JEOL JEM 2200FS operated at 200kV (Schottky auto emission gun, point resolution 0.19nm) with an in-column energy fl-filter for EELS/EFTEM, a STEM unit and Oxford EDS X-Max detector. Images were recorded by the Gatan CCD camera with resolution of 2048x2048 pixels using the Digital Micrograph software package. The polished and sliced samples were manipulated using the NIKON optical microscope. The ion sliced samples were fixed on the copper O-ring using the G2 Epoxy Glue for the TEM observations. The X-ray diffraction experiments were carried out using an automatic powder X-ray diffracto meter X'Pert Pro (PANalytical) equipped with a point detector in asymmetric omega-2 theta geometry Copper Karadiation (λ=0.154nm) Was used as an X-ray source. The ceramic alumina from NIST (National Institute of Standards and Technology) was used as an instrumental standard. Go to Results And Discussion The crystalline phase analysis of the as-prepared a-Si: H/a- SiO2 and heat-treated (annealed) nc-Si/a-SiO2 thin film structures from X-ray diffraction is presented in Figure 4. The annealed thin film of nc-Si/a-SiO2 deposited on c-Si substrate shows the diffraction peaks at 28.5 °C, 47.5 °C and 56.3 °C corresponding to nc-Si orientations of (111), (220) and (311) planes, respectively, which are declined from the film surface about 13.75°, 23.25° and 27.65°. But, there was no significant diffraction observed for the as-deposited amorphous a-Si: H/a-SiO2 thin films. Hence, it confirms that the annealing makes the amorphous Si layer into nanocrystalline Si layer. No significant preferred orientation of crystallites against the film surface was observed. Figure 5 shows the TEM images of the nc-Si/a-SiO2 multi-layers. The stacked layers are clearly identified by TEM and the periodic structure was still maintained even after thermal annealing at high temperature (1100 °C). In (Figure 5 ), the 600nm thick nc-Si/a- SiO2 multi-layers are shown between the glue layer and the Si substrate. The layers were grown alternately in order to increase the light capturing property of the solar cell. The multi-layered, textured structure is responsible for the surface light scattering (bulk scattering) due to the heterogeneity of the deposited thin layers [12,13]. (Figure 5 ) shows the silicon L map of the nc-Si/a- SiO2 layers from EFTEM (Energy Filtered TEM), which clearly shows the contrast between crystalline and amorphous regions. The homogeneous amorphous and crystalline sequences of nc-Si and a-SiO2 layers are shown in (Figure 5 ). The shrinkage in the crystalline layers occurred due to the heat-treatment causing the formation of a denser polycrystalline layer. The a-SiO2 layers are still amorphous since their conversion to crystalline silica would require a very high temperature. Click here to view Large figure 4 Click here to view Large figure 5 Click here to view Large figure 6 The amorphous and crystalline phases of a-SiO2 and Si are observed clearly from the HRTEM micrographs shown in Figure 6. The thickness of the nc-Si and SiO2 is about 10nm and 15nm, respectively. The size of the nc-Si was found to be in the range from 8 to 10nm. The SAED spectra in Figure 6 confirmed the diffraction of electrons from the polycrystalline Si planes (111), (220) and (311). Go to Conclusion Multilayer nc-Si/a-SiO2 thin film structures were obtained by heat-treatment at 1100 °C from PECVD grown a-Si: H/a-SiO2 multi-layer thin films. Samples of the nc-Si/a-SiO2 film for crosssectional TEM (XTEM) were successfully prepared using the Cryo Ar ion slicing by two different procedures. Very thin (up to 10nm) XTEM specimens without any artefacts were successfully prepared by this method. The amorphous and crystalline phases of the Si structures in the as-prepared and annealed thin films were analysed by X-ray diffraction. The lattice planes of the nanocrystalline silicon (nc-Si) structure were indexed for the prominent planes observed from X-ray diffraction. The TEM and HRTEM micrographs of the 600nm thick nc-Si/a-SiO2 multi-layers were observed clearly. The average thicknesses of the nc-Si and a-SiO2layers were 10nm and 15nm, respectively The nanocrystals in the Si layers extended up to the boundary of a-SiO2. The size of the nanocrystals was found to be in the range from 8 to 10nm. The XTEM observations of the specimens prepared by Cryo Ar ion slicing exhibit a good resolution of the individual layers in the multi-layer structures. For more Open Access Journals in Juniper Publishers please click on: https://juniperpublishers.com/ for more details click on the juniper publishers material science

We should focus on getting to know the ingredients of every product.

I must be one of very few people who, once in awhile, likes to know the break down of every single ingredient of a product. You know, those list of ingredients you see on every package that no one can understand the meaning of?

Recently I bought a lip moisturizer by Nivea (Hydro Care) at my local grocery store. I threw out the package it came in because being a human it’s only natural I bust it out of the package to use the product, so I relied on the internet to get the image of the original package. There were no ingredients listed on the lip balm itself.

Surprisingly this product is not what it appears to be. I like how it feels on my lips when I put it on, but the moisturizing doesn’t last and I find myself having to reapply it. There are a few ingredients which include alcohol, some forms of acid with different names, and wax.

Water is also listed as the 10th ingredient on the product, for something that has the word “hydro” in it you would think this would be listed near the beginning, but it’s not. So here is a break down of the ingredients. It also may not be cruelty-free either because Cetyl Palmitate is a fatty acid which may be derived from animals such as a sperm whale’s head or possibly dolphins.

There is also no mention of UV protection on the product even though some of the ingredients contain some form of UV protection.

Nivea Hydro Care Lip moisturizer

Octyldodecanol :

               A long-chain fatty alcohol used in a wide variety of beauty products as an emollient and emulsifier

Microcrystalline Wax:

A type of wax produced by de-oiling petrolatum, as part of the petroleum refining process

Cire microcrystalline:

               a term for refined wood pulp and is used as a texturizer, an anti-caking agent, a fat substitute, an emulsifier, an extender, and a bulking agent in food production. The most common form is used in vitamin supplements or tablets.

Caprylic/Capric Triglyceride:

               It's included in cosmetics due to its mix of fatty acids that skin can use to replenish its surface and resist moisture loss. Caprylic/capric triglyceride can also function as a thickener, but its chief job is to moisturize and replenish skin.

Ricinus Communis (Castor) Seed Oil:

               A vegetable oil obtained from the seeds of the Ricinus communis plant. In cosmetics and personal care products, Castor Oil and related ingredients are used in the formulation of many different cosmetic and personal care products including lipstick, skin-care products, and bath soaps.

Cetyl Palmitate:

This lipid ingredient is composed of cetyl alcohol and palmitic acid, a naturally occurring fatty acid. This ingredient may be derived from animals. From PETA's Caring Consumer: Waxy oil derived from the sperm whale's head or from dolphins. In many margarines. In skin creams, ointments, shampoos, candles, etc. Used in the leather industry. May become rancid and cause irritations.

Ethylhexyl Methoxycinnamate:

               An active ingredient in OTC sunscreen products. It is used in products that are applied to the skin to absorb, reflect or scatter UV rays; it protects the skin from sunburn and other damaging effects of the sun. Ethylhexyl Methoxycinnamate also protects cosmetics and personal care products from deterioration caused by UV rays and allows them to last longer in high UV conditions.

Myristyl Myristate:

               A 100% natural vegetable derived ester utilizing only the Myristic fatty acids. This combination of myristyl alcohol and myristic acid results in superior whitening to the product and improved benefits to the skin.

Polyglyceryl-3 Diisostearate:

               A diester built from a polyglycerol with three glycerol units and two units of isostearic acid. Both, the polyglycerol and the isostearic acid are 100% vegetable derived, can be used in hot and cold emulsification processes.

Water/Eau: Self-explanatory

Glycerin:

               It is a colorless, odorless, viscous liquid that is sweet-tasting and non-toxic. The glycerol backbone is found in all lipids known as triglycerides. It is widely used in the food industry as a sweetener and humectant and in pharmaceutical formulations.

 Butyl Methoxydibenzoylmethane:

               Used in the formulation of sun protection products, as well as bath, skin, cleansing, hair, nail and fragrance products. In the United States, when this ingredient is used in sun protection products, it will be listed on the label as Avobenzone.

Cetearyl Alcohol:

               A mixture of cetyl and stearyl alcohols that can come from vegetable or synthetic sources.

Octocrylene:

               A common sunscreen ingredient. It may cause allergic skin reactions in sensitive individuals.

Copernicia Cerifera (Carnauba) Wax/Cire de carnauba:

               Carnauba wax is extracted from the leaves of the carnauba palm, Copernicia cerifera, a plant native to Brazil.

Butyrospermum Parkii (Shea Butter):

               Shea butter is a vegetable fat obtained from the fruit of a tree native to Africa, Butyrospermum parkii. Shea butter is primarily composed of fatty acids such as stearic and oleic acids.

Aloe Barbadensis Leaf Juice

               Aloe Barbadensis leaf juice, or Aloe Vera as it is more commonly known, is extracted from the leaves of the plant Aloe. It has been used medicinally for several thousands of years in many cultures. Scientists have discovered over 200 nutritional substances in Aloe Barbadensis leafs, including 20 minerals, 20 amino acids, 12 vitamins, and active enzymes.

Aloe Barbadensis leaf juice can soothe skin and serve as an anti-inflammatory. It can be efficiently used topically, because of its burn healing effects, scar reducing and wounds healing properties. Aloe protects the skin from UV damage. The herb contains aloin, which can block up to 30 percent of the ultraviolet rays when applied to the skin’s surface.

Glyceryl Glucoside:

               Glyceryl glucoside is a conjugated molecule of glycerol and glucose, and was originally found to be critical for cyanobacteria survive in extremem conditions. Recently, many scientific reports suggested the key role of glyceryl glucoside in induction of aquaporin-3 protein, which is an essential protein in water molecule transport across the skin cell membrane. Glycerol glucoside is becoming the new molecule for next generation moisturising ingredient.

C20-40 Alkyl Stearate:

               The ester of C20-40 alcohols and stearic acid.

Beeswax/Cire d’abeille:

               A natural wax produced by honey bees of the genus Apis. The wax is formed into "scales" by eight wax-producing glands in the abdominal segments of worker bees, who discard it in or at the hive. The hive workers collect and use it to form cells for honey-storage and larval and pupal protection within the beehive. Chemically, beeswax consists mainly of esters of fatty acids and various long-chain alcohols.

 BHT(Butylated hydroxytoluene):

               Also known as dibutylhydroxytoluene, is a lipophilic organic compound, chemically a derivative of phenol, that is useful for its antioxidant properties. European and U.S. regulations allow small amounts to be used as a food additive. In addition to this use, BHT is widely used to prevent oxidation in fluids (e.g. fuel, oil) and other materials where free radicals must be controlled.

Benzyl Alcohol:

               Benzyl alcohol is produced naturally by many plants and is commonly found in fruits and teas. It is also found in a variety of essential oils including jasmine, hyacinth, and ylang-ylang. It is also found in castoreum from the castor sacs of beavers.

Parfum/Fragrance: Self-explanatory

So you be the judge of the products you use while I use this lip balm as some form of candle I can light up. I wouldn’t recommend this product to a vegetarian or vegan.

Petroleum Jelly: Everything You Need to Know About This Multipurpose Wonder

Introduction

Imagine a single product that soothes, protects, and heals—one that has been trusted for generations. That’s petroleum jelly for you! This skincare hero is more than just a moisturizer; it’s a versatile solution used in personal care, medical treatments, and industrial applications. Whether you seek bulk petroleum jelly for business or personal use, finding a reliable petroleum jelly manufacturer is key to ensuring purity and quality. Let’s explore why this multipurpose marvel is a must-have and how to source it in bulk from trusted suppliers!

What is Petroleum Jelly?

Also known as petrolatum, petroleum jelly is a thick, moisturizing substance extracted from crude oil and refined to form a protective, hydrating barrier. Its purest form, white petroleum jelly, is widely used in cosmetics, pharmaceuticals, and medical applications.

Uses of Petroleum Jelly

Petroleum jelly is a versatile product with a range of uses, including:

Skin Care: It is a lifesaver for dry skin, chapped lips, and cracked heels.

Hair Care: Some people use petroleum jelly for hair to control frizz and add shine.

Baby Care: Many parents trust petroleum jelly for diaper rash to protect their baby’s delicate skin.

Wound Healing: It helps wounds stay moist, reducing the risk of scarring.

Tattoo Aftercare: Tattoo artists recommend petroleum jelly for tattoos to keep new ink hydrated.

Eczema and Psoriasis: Those suffering from skin conditions use petroleum jelly for eczema and psoriasis to soothe inflammation.

Petroleum Jelly Ingredients

Understanding what goes into your petroleum gel ensures safety and efficacy:

Mineral Oil – Hydrates and protects.

Microcrystalline Wax – Gives structure and smooth texture.

Paraffin Wax – Creates a moisture-locking shield.

Petroleum Jelly Manufacturing Process

The journey from crude oil to skin-safe petroleum jelly involves:

Crude oil extraction & purification

Distillation to remove impurities

Cooling and refining into a gel-like consistency

Stringent quality control to meet safety standards

Petroleum Jelly Benefits

Some petroleum jelly benefits include:

Acts as a skin protectant and moisturizer

Prevents dryness and flakiness

Heals minor cuts and burns

Used in makeup removal

Provides protection against harsh weather

Is Petroleum Jelly Safe?

Many wonder, is petroleum jelly safe? Yes, but only when it's triple-distilled and free from contaminants. Choosing pure petroleum jelly ensures it is safe for skin, babies, and even wounds.

Petroleum Jelly Side Effects

Although generally safe, some petroleum jelly side effects include:

Clogged pores – Using too much can cause acne.

Allergic reactions – Rare but possible in sensitive individuals.

Toxicity concerns – Unrefined petroleum jelly may contain harmful substances.

Best Petroleum Jelly Brands

Some of the best petroleum jelly brands include global leaders and local suppliers offering high-quality, safe products. When choosing a brand, always look for pure petroleum jelly free from additives.

Petroleum Jelly Price & Bulk Purchasing

The petroleum jelly price depends on:

Quality and purity levels

Quantity (bulk vs. retail)

Manufacturing process

For businesses, buying from a bulk petroleum jelly manufacturer ensures lower costs and high-grade products.

Alternatives to Petroleum Jelly

For those looking for natural alternatives to petroleum jelly, options include:

Shea butter – Highly moisturizing

Coconut oil – Antibacterial properties

Beeswax – Creates a protective layer

Aloe vera gel – Soothes irritated skin

Petroleum Jelly Expiration & Storage Tips

Petroleum jelly expiration varies but typically lasts 3–10 years if stored properly. Keep it in a cool, dry place to extend its shelf life.

Petroleum Jelly Hacks & Uncommon Uses

Beyond skincare, petroleum jelly has other surprising uses:

Shining leather bags and shoes

Preventing rust on metal items

Protecting pet paws from extreme weather

Reducing friction in door hinges

Conclusion

Petroleum jelly is an all-purpose wonder used in skincare, medical treatments, and industrial applications. Whether you're looking for petroleum jelly bulk suppliers or a reliable petroleum jelly manufacturer, choosing a trusted source ensures you receive high-quality petroleum gel at competitive prices. At Shree Krishna Enviro Venture Private Limited, we offer premium-grade petroleum jelly in bulk for various industries. Contact us today to place your bulk order!

FAQs

1. Is petroleum jelly toxic?

No, refined petroleum jelly is non-toxic and safe for external use.

2. How to use petroleum jelly for the skin?

Apply a thin layer on dry areas to lock in moisture and promote healing.

3. Does petroleum jelly expire?

Yes, it has a shelf life of 3–10 years depending on storage conditions.

4. What are the best petroleum jelly brands?

The best brands offer triple-purified, white petroleum jelly for safety.

5. Can petroleum jelly be used as a moisturizer?

Yes! It’s an excellent moisturizer for dry skin, lips, and rough patches.For high-quality bulk petroleum jelly, contact Shree Krishna Enviro Venture Private Limited today!

Actually do you want to see something I think is pretty nifty?

This painting has an area of almost total loss, right down to the ground layer, and needed a retouch job but the impasto on this thing is insane. So what I did is I laid a new lower layer mixed with a quick drying agent, that's the kinda turquoisey-blue part, then made up the grittiest, most horribly textured paint I could by bulking out my oils with earth tone pigments and a smidge of titanium white. This stuff wasn't paint so much as coloured paste, I pretty much had to apply it like grouting. In fact I had to manoeuvre it into place with my dental tools to get it to fill the gap, yet needed a fine point brush to get it to still hold the form and texture, and had to hope it would dry to the right colour.

The colour isn't perfect but with a thin glazing layer modulated with a matting agent or perhaps some microcrystalline wax, I can adjust to the point where the repair is virtually invisible.

I think it turned out pretty well myself, but impasto paintings are like playing on easy mode truth be told

I'm perishing here someone help me please

Microcrystalline wax is a refined synthetic wax with similar microcrystalline properties. It has the characteristics of good gloss, high melting point, and light color. The structure of micro crystalline wax is compact, firm, and smooth. It can be melted with various natural waxes and can increase its low degree. The melting point of wax improves the microcrystalline wax properties. The micro crystal wax itself is as white as jade and generates light by friction, which has an extremely beneficial effect on the production of light-colored products. It is mainly composed of C30-50 cycloalkanes and a small amount of normal and isoparaffins. They have the characteristics of high melting points and are amorphous. The melting point of microcrystalline wax is generally 54.4℃ to 90.6℃. Compared with paraffin wax, microcrystalline wax is tough and not easily broken. Most grades of microcrystalline wax have plasticity. In terms of color, microcrystalline wax is milky white or light yellow.

 Features of Micro Crystal Wax

01

Good gloss, high melting point, light color, etc.

 02

Compact, firm, and smooth structure.

 03

Tough and not easily broken.

 04

High melting point, amorphous.

 Parameters of Micro Crystal Wax

Standard: SH/T 0013-2008                                      

Test item

Standard

Test Method

Drop Melting point     

67<87

GB/T 8026

Oil content%                             

≤3.0

SH/T 0638

Color                                    

≤3.0

GB/T 6540

Needle Penetration(25℃,100g), 1/10mm      

≤30

 Needle Penetration(35℃,100g), 1/10mm

 GB/T 4985

Kinematic Viscosity(100℃), mm²/s             

≥6.0

GB/T 265

Water Soluble Acid And Alkali

Null

SH/T 0407

 Application of Micro Crystal Wax

The microcrystalline wax uses is glazing agent, rust inhibitor, carbon paper, candles, packaging dipping, and fruit coating for paste products; also used in cosmetics, crayons, shoe polish, various glazing waxes, etc.

 Packaging and Storage of Micro Crystal Wax

We offer 50kgs woven bag and 25kgs carton with plastic waterproof outer lining, Store indoors to isolate the influence of sunlight and temperature on microcrystalline wax.

Mally High Shine Liquid Lipstick

Price: $20.00

Shade: Blossom

Claims: Mally’s High Shine Liquid Lipstick is the perfect finish to your look that gives you those full and juicy lips. The unique applicator loads the opaque color onto the brush so it glides smoothly across your lips. The result is the perfect amount of special opaque color combined with the stunning shine of gloss to give you a polished look, even when you're in a hurry.

Ingredients:

Bis-diglyceryl Polyacyladipate-2: A sticky paste, semi-solid emollient often used as a lanolin substitute. It's valued for its high water-binding properties, excellent adhesion to the skin and glossy finish.

Polybutene: A oligomeric oil, sometimes derived from petroleum, that is used in its hydrogenated form, as a binder, epilating agent, thickener and lubricant. It is naturally tacky or sticky and is also used for its adhesive properties.

Lanolin Oil: Emollient, very thick substance derived from sheep. 

Petrolatum: Vaseline is pure petrolatum, and petrolatum is a rich emollient and FDA-approved skin protectant. It is one of the best ingredients for dry to very dry skin, including around the eyes. Although derived from crude oil (thus making petrolatum a natural ingredient), it is highly purified prior to being used in cosmetics, so there’s no risk of exposure to unwanted chemicals. Can help replenish, soothe and beautifully moisturize skin’s outer layer. It’s widely considered safe and highly effective.

Microcrystalline Wax (Cera Microcristallina): Plastic-type, highly refined wax derived from petroleum and purified for use in cosmetics. Used as a thickener and to give products a semi-solid to solid smooth texture.

Isopropyl Palmitate: Texture enhancer and emollient as used in cosmetics. It can potentially be problematic for those with oily skin, depending on the amount in the product and your skin’s response. May be synthetic or derived from plant and animal sources. 

Beeswax (Cera Alba): Used primarily as an emulsifier.

Disteardimonium Hectorite: A vegetable-derived suspending agent used to thicken oil-based products and serve as a stabilizer for emulsions

Dicalcium Phosphate: Opacifying Agent

Propylene Carbonate: Liquid used as a solvent and film-forming agent.

Mica: Earth mineral included in products to give them sparkle and shine. The level and look of the shine mica provides depends on the color and how finely it’s milled. Mica's sheer, translucent and skin-hugging properties make it a popular ingredient in mineral powders. Mica powder reflects light from the face because of its glittering or shimmering properties, and can create the illusion of a smoother, softer and more radiant skin tone.

Titanium Dioxide: An earth mineral used in sunscreens that is capable of blocking both UVA and UVB rays; also used as a pigment.

Iron Oxides: Natural oxides of iron (iron combined with oxygen); pigments are used to enhance colors in cosmetics.

Ultramarines (Lapis Lazuli): A bright blue mined mineral pigment.

Calcium Aluminum Borosilicate: A glass-type material used as a bulking agent.

Silica: Mineral found abundantly in sandstone, clay, and granite, as well as in parts of plants and animals. Silica can also be produced synthetically and is used as an absorbent powder and thickening agent in cosmetics. Certain forms of silica can improve even distribution of pigments in cosmetics and prevents them from settling in makeup. Silica particles can enhance the absorption of other ingredients.

My Thoughts: My relationship with Mally High Shine Liquid Lipstick was rocky in the beginning, due to the title and the packaging. The title is High Shine Liquid Lipstick, which is deceiving because its not even close to being a liquid lipstick. Its definitely just a lipgloss at the end of the day. Not a huge deal, but the packaging of the lipgloss was more annoying. It comes in a standard lip gloss tube but with a brush applicator. If the brush fit into the tube perfectly I wouldn’t have a problem but this wasn’t the case. The bristles kept getting caught in the opening and would eventually became bent. I had to cut a chunk of it off.

After that I didn’t have an issue with the packaging until now. As I write this review I just now notice the silver lettering wasn’t on the tube anymore. And I can’t recall recently seeing it, so it must have come off maybe 6 months ago.

Mally High Shine Liquid Lipstick in Blossom is a beautiful shimmery mauve in the bottle. When I put it on its a different story. Blossom had a metallic finish with a mauve tint to it, also it was very very shiny. Mally should have named it Mega Shine instead. The tint of mauve is opaque in color. Since the tint wasn’t that strong I would pair this with a lipstick. I would only apply it to my center of the lips, so the metallic finish gives a little pop to my look.

Mally High Shine Liquid Lipstick texture is thick and on the sticky side. It does feel a bit heavy on the lips which i can handle. What I can’t handle is every little thing that gets stuck to my lips. It drives me crazy! If I have chapped lips it doesn’t look pretty when the tint just clumps up. The staying power isn’t that great. The metallic and the tint does fades away after 2 hours to a shine and shimmery. So I am forced to reapply. When it comes to drinking the lip gloss does stay on but transfers a bit. For eating it comes completely off.

Even though I am not a big lip gloss fan, the unique metallic finish grew on me since I didn’t have anything like it in my collection. Plus it had a delicious sweet fruity scent to it.

Would I purchase Mally High Shine Liquid Lipstick? Even though the finish is a unique, I still wouldn’t purchase it because I am not a huge lip gloss fan.

Pros:

Mauve tint 

Tint is opaque

Shiny Metallic finish 

Adds a bit of pop when paired with a lipstick

Sweet fruity scent

Cons:

Not a liquid lipstick, its a lip gloss

Brush applicator is too big for the opening of tube

Silver lettering on the tube came off

Texture is thick & sticky 

Random things get stuck on lips

Feels heavy on the lips

Chapped lips the tint clumps up

Staying power is weak

After 2 hours have to reapply 

Transfers when drinking 

Eating wipes it off completely

If you found this review helpful please click on the heart or reblog. Feel free to reply with your thoughts on the product.

NYX Gotcha Covered Concealer

Price: $6.00

Shade: Tan (Medium deep with olive undertone)

Claims: Gotcha Covered Concealer always has your back! Now available in 10 more gorgeous shades, our waterproof, full coverage concealer effectively covers up discolorations and imperfections without creasing or caking. Infused with coconut oil, this highly blendable concealer also leaves your face with a healthy-looking glow.

Ingredients:

Caprylic/Capric Triglyceride: Derived from coconut oil and glycerin, it’s considered an excellent emollient and skin-replenishing ingredient. It’s included in cosmetics due to its mix of fatty acids that skin can use to replenish its surface and resist moisture loss. Also function as a thickener, but its chief job is to moisturize and replenish skin. This ingredient’s value for skin is made greater by the fact that it’s considered gentle.

Bis-Diglyceryl Polyacyladipate-2: A sticky paste, semi-solid emollient often used as a lanolin substitute. It's valued for its high water-binding properties, excellent adhesion to the skin and glossy finish.

VP/Hexadecene Copolymer: Synthetic polymer that functions as a binding agent, texture enhancer, and dispersing agent.

Silica Dimethyl Silylate: A silica derivative used as an anti caking agent, bulking agent, slip modifier, viscosity increasing agent, emollient, and most often as a suspending agent. It is often found in cosmetics because of its ability to thicken while moisturizing, and provide long-lasting wear.

Cetyl Alcohol: Fatty alcohol used as an emollient, emulsifier, thickener, and carrying agent for other ingredients. It is not an irritant and is not related to SD alcohol, denatured alcohol, or ethyl alcohol. Cetyl alcohol is considered safe for use in cosmetics.

Microcrystalline Wax: Plastic-type, highly refined wax derived from petroleum and purified for use in cosmetics. Used as a thickener and to give products a semi-solid to solid smooth texture.

Cocos Nucifera (Coconut) Oil: Emollient oil expressed from coconut kernels, a moisturizing surfactant and emollient. Seals in moisture to protect tresses from breakage and excessive heat exposure. 

Ascorbyl Palmitate: Stable and nonacidic form of vitamin C that is effective as an antioxidant. Particularly effective at reducing environmental damage.

Tocopheryl Acetate: Its substantiated benefits include enhancing the efficacy of active sunscreen ingredients, reducing the formation of free radicals from exposure to UV rays, promoting the healing process, strengthening the skin's barrier function, protecting the skin barrier's lipid balance, and reducing transepidermal water loss. Attributed with antioxidant, anti-aging, moisturizing, anti-inflammatory, and enhanced SPF properties, tocopherol acetate is valued both as a dietary supplement and skincare active. 

Myristyl Alcohol: A fatty-alcohol emollient. Used to inhibit a formula from separating into its oil and liquid components. However, it can be drying, as can most fatty-alcohols.

Stearyl Alcohol: A naturally fatty alcohol derived from stearic acid, coconut oil or vegetable fatty acids, and is used to soothe and soften as a conditioning agent and as an emulsifier. It can also be used to thicken formulas, adding body and viscosity.

Ethylhexylglycerin: A synthetic skin-softening agent also used as a preservative, a carrier, or suspending agent for other preservatives such as phenoxyethanol.

BHT: A fat soluble synthetic compound, in the form of a white/yellow crystalline solid. Primarily acts as an antioxidant food additive because of its ability to preserve fats. It's also used as a preservative. As an antioxidant, it helps fight against the deterioration of cosmetic products caused by chemical reactions with oxygen. It's also known to work synergistically with other antioxidants. 

Phenoxyethanol: A glycol ether and bactericide (that functions as a disinfectant, antiseptic or antibiotic) that is primarily used as a preservative. It is also seen as a fragrance additive.

Titanium Dioxide: An earth mineral used in sunscreens that is capable of blocking both UVA and UVB rays; also used as a pigment.

Iron Oxides: Natural oxides of iron (iron combined with oxygen); pigments are used to enhance colors in cosmetics.

My Thoughts: NYX Gotcha Covered Concealer comes in a transparent plastic tube however most of it is covered with a black label, leaving only a strip showing the foundation color. I accidentally made the mistake of getting a shade too close to my skintone, I wish got a lighter one, but I made this one work. The texture is super thick and creamy, it reminded me of Tarte Maracuja Creaseless Concealer. Blending this medium coverage concealer does take work. If I accidentally over apply it takes forever to blend in and my hand starts cramping up.

NYX Gotcha Covered Concealer is terrific at covering any discoloration. But it fails at keeping raised blemishes covered. I find the concealer just melts back down to the skin’s surface after applying it to the raised blemish. On the eyelids the concealer does crease 30 minutes after application, even with setting powder applied! NYX Gotcha Covered Concealer should have a dewy finish however most cases I get a greasy and oily finish. With this concealer I get at least 5 to 6 hours of wear.

Would I purchase NYX Gotcha Covered Concealer again? No its a lost cause, even if its cheap.

No makeup

NYX Gotcha Covered Concealer

Pros:

Plastic tube concealer

Thick & creamy texture

Covers any discoloration 

5 to 6 hours of wear 

Cheap

Cons:

Blending takes forever

Doesn’t cover raised blemishes 

Creases on eyelids

Greasy & oily finish

Finish look

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