More Hair for Femshep brings to the Legendary Edition Sims 4 Hairs created by Anto and originally ported by Kittentails to the original Mass Effect 3. Players who want to use them will need to use the Trilogy Savegame Editor to change their Shepard's hair as for the moment it is not possible to include them on the Character Creator.
Original meshes and textures by Anto -of-useOriginal port to Mass Effect 3 format by Kittentails -blogs.tumblr.com/post/644685186670460928/sims-4-anto-hair-port-resources-for-mass-effect-3Legendary Edition conversion by me, Khaar Machinima.
Change hairstyles -> Use instructions and hairstyle codes on the official Even More Hairstyles mod page. Credits to Moraxix for the Even More Hairstyles Mod. To change skin tone. Use Trilogy Save Editor.Backup your save files. Open the latest save file in Trioligy save editor. Go to Headmorph Tab->Vector Parameters->Skin Tone. Set custom skin tone color to your liking with color picker.
But one design change fans are less happy about is Yeoman Kelly Chambers. While she was barely recognizable between Mass Effect 2 and 3, she now features her latter design in both games. However, it seems many would have preferred a remaster closer to her design in Mass Effect 2. While some fans take issue with Kelly's hairstyle, others feel that her jaw and cheek shape makes her look a bit awkward. Some even go so far as to ask if there are bees aboard the Normandy.
From time to time EDI comments about things not specific to missions Shepard has just undertaken. In one, EDI tells Shepard that she is impressed with their continued existence because the probability of anyone surviving as long as they have is quite low. In another, she tells Shepard about one of her discussions with Liara regarding the possibility of the mass effect phenomenon in other universes. EDI goes on to theorize a bit before asking Shepard about their opinion, to which Shepard awkwardly answers that they will get back to her on that.
EDI also mentions that the hair can change shape or form: as a default she has set the hair to "protection mode", a hard shell encasing the skull in the manner of a helmet. Should she choose to do so, she could separate the strands and have actual hairstyles. If the synthetic strands become wet, however, they cannot hold the pattern set by the control program. EDI's exact comment is "I generally can't do a thing with it".
If you've been reading my post on hair, you'll notice each one has 2 lines of code associated with them. You'll need these to change your Shepard's hair via Gibbed. Where do they go?! Open up the save you want to edit and navigate over to the 'Raw' tab. Click Player - Appearance - Head Morph This is what we're interested in.
It is common to use cationic ingredients in many shampoos' formulations with anionic surfactants in order to result in charge neutralization forming a cationic-anionic complex, a neutral hydrophobic ingredient. Therefore, we can understand that the interaction between the ingredients is more important than the ingredient alone, as we are led to believe by the media. It is very common to think that a new release product that contains a certain ingredient has the magic ability to transform dull hair into shiny and smooth hair. Most of the time, the major ingredients do not change, and sometimes the capacity of the ingredients to interact inside the shampoo's or conditioner's chassis or system is what makes the product acts better. Bleached and chemical treated hair have a higher affinity to conditioning ingredients because they have a low isoelectric point (higher concentration of negative sites) and are more porous than virgin hair.[5,20]
Dimethicone is the most widely used silicone in hair care industry, and entropy is important for its adsorption to the hair surface. Dimethicone is the main ingredient of the two-in-one shampoos. Others are: Aminosilicones, siloxysilicates, anionic silicones and others. They differ on deposition and solubility in a water medium, therefore acting differently on the hair. Some silicones can even enhance the shine of hair fiber by reflecting the light. Dimethicone has the effect of protecting the hair shaft from abrasive actions while siloxysilicates increase hair body.[5,21,22,23]
Oils play an important role in protecting hair from damage. Some oils can penetrate the hair and reduce the amount of water absorbed in the hair, leading to a lowering of swelling. This can result in lower hygral fatigue (repeated swelling and drying), a factor that can damage hair. The oil can fill the gap between the cuticle cells and prevent the penetration of the aggressive substances such as surfactants into the follicle. Applying oil on a regular basis can enhance lubrication of the shaft and help prevent hair breakage. Rele and Mohile in 2003, studied the properties of mineral oil, coconut oil and sunflower oil on hair. Among three oils, coconut oil was the only oil found to reduce the protein loss for both undamaged and damaged hair when used as a prewash and postwash grooming product. Both sunflower and mineral oils do not help in reducing the protein loss from hair. This difference in results could arise from the composition of each of these oils. Coconut oil, being a triglyceride of lauric acid (principal fatty acid), has a high affinity for hair proteins and because of its low molecular weight and straight linear chain, is able to penetrate inside the hair shaft. Mineral oil, a hydrocarbon, does not penetrate. Sunflower oil is a triglyceride of linoleic acid with a bulky structure and double bonds and has limited penetration to the fiber, not reaching the cortex. The mineral oil and the sunflower oil may have a film effect and adsorb to the surface of the cuticle enhancing shine and diminishing friction and for these, avoid hair damage.
Keis et al. in 2005 studied the effect of coconut oil, olive oil, sunflower oil and mineral oil on the hair. Except for mineral oil, heat decreased the capillary adhesion of the other oils, resulting from the penetration into the hair fiber by diffusion, leaving a thin film on the surface. Although thick films of oil can mask the lifted scales of the cuticle, it may leave an oily and heavy look to the hair. It is preferred to reapply oils that leave a thin layer on the surface and are well absorbed by the fiber. In 2009, the Brazilian oils and butters were studied by Fregonesi et al. They analyzed the following substances: Passion fruit seed (77% linoleic acid), Brazilian nut (38% oleic acid and 35% linoleic acid), palm olein (47% oleic acid), buriti (79% oleic acid), palm stearin (42% palmitic acid and 41% oleic acid), tucumã (48% lauric acid and 27% myristic acid), ucuúba (75% myristic acid), sapucainha (47% chaulmoogric acid, 27% hydnocarpic and 19 gorlic acid). Oil treatment reduced the combing force percentage for wet conditions. However, the hair treated with butters showed poor combing. Treatments using oils reduced the formation of split ends in the hair. Tresses treated with Brazilian nut and mineral oils gave the lowest formation of split ends.
The reduction of combing forces is a combination of water wetting and the lubricant effects of the oil on the fibers. Butters increased the combing force. Butters in raw state are not as fluid as oils and do not spread easily along hair tresses. The Brazilian nut, passion fruit seed, palm olein, buriti and mineral oils produced combing force reduction. Mineral oil has no affinity to hair's proteins and is not able to diffuse in the fiber. Mineral oil main effects are its higher spreading capability on the hair surface which improves gloss, combing facility and reduces split end formation.
In 2007 Keis et al. studied the effect of oil films on moisture vapor on human hair to analyze the capability of oils to reduce the moisture pick up. Although coconut oil penetrates, the fiber and mineral oil does not, there is the equivalent reduction on water sorption for both oils. Increasing the thickness of the oil layer on the fiber surface increased hair moisture regain. The oil that remains in the cuticle layer and not the oil that penetrates the cortex is the one responsible for the decrease in the water pick up.
Disulfide bonds are cleaved using an alkaline reducing agent; then the hair is mechanically straightened using a comb during the reducing phase to restructure the position of disulfide bonds between new polypeptide keratins. They also react with peptide bonds, hydrolytically cleaving this linkage, producing acid and amine groups, and producing residues of aspartic and glutamic acids. The relaxers are applied on prewashed hair and after usage, must be rinsed off with running water. They provide the most permanent hair straightening but if applied with the wrong technique may cause scalp burns and hair breakage. The pH of alkaline straighteners varies from 12 to above 13. Hair is sensitive to pH value changes and alkaline solutions swell the fibers and open the cuticle scales. This can make the hair susceptible to friction, lowering its resistance and strength.
Hair straightening needs to be repeated every 12 weeks or longer. The emphasis should be only on new growth hair since repeated treatments can lead to hair breakage, which usually occurs at the junction of the new growth and previously treated hair. Careful application to new growth only and previous conditioning of the hair can help prevent excessive breakage. In the work of Shetty et al., the most common adverse effects reported after chemical hair straightening were: Frizzy hair in 67%, dandruff in 61%, hair loss in 47%, thinning and weakening of hair in 40%, greying of hair 22%, and split ends in only 17%.
The mode of action of the formaldehyde is different from the others relaxers because formaldehyde or other aldehydes are not hair straightening products. The hair is remodeled straight because water breaks hydrogene bonds of the keratin molecule as happens in a regular blow-dry. The newly redesigned keratin is then kept in this shape because the formaldehyde crosslinks the keratin filaments in such a perfect alignment that the hair is now set straight and shines like no virgin straight hair is capable of. The light that strikes the hair reflects from the realigned keratin filaments and brings the effect of a brighter shiny hair. A study by Simpson and Crawshaw which analyzed the reactivity of formaldehyde and wool keratin, found that formaldehyde forms cross-links with the keratin amino acids; arginine, lysine, tyrosine, histidine, and the amide derivatives of aspartate and glutamate. 2b1af7f3a8