As market leaders of functional ingredients for the personal care industry, Redox is constantly on the lookout for new products that provide our clients with innovative options. This is particularly true now, during the current pandemic, with hand sanitiser manufacturers in search for supply alternatives to fulfil demand.

Hydroxypropyl guars are a naturally derived ingredient extracted from the seed of guar beans. It is sustainable and renewable, which is particularly important to end users and adds value to your finished product. The appeal extends to manufacturing, reducing steps in the process, with its ability to hydrate rapidly in cold water to form viscous water solutions.

Hydroxypropyl guars are available in various grades of clarity, viscosity and degree of modification to cater to specific needs. This powdered product, packed in 25kg cartons, is most commonly used as a thickener in hair care solutions, shower products, hand sanitisers and air fresheners.

If you would like to know more, please contact one of our industry specialists today.

本教程适用版本：WPS 365 点击免费使用

本教程适用版本：WPS Office 2019 PC版  点此使用

今天教大家一个小技巧：如何用PPT制作动态图标。一起来学习一下吧。

先打开PPT，然后在顶部的菜单栏中点击插入，在下方插入图表：

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在弹出的插入图表对话框中，我们选择一个图表，然后点击插入，具体操作如下图所示：

>>免费升级到企业版，赠超大存储空间

然后我们鼠标右击编辑数据：

>>免费升级到企业版，赠超大存储空间

这时候会弹出一个WPS演示中的图表的Excel表格，在这里编辑好需要的数据：

>>免费升级到企业版，赠超大存储空间

这样图表就制作完成了，接下来我们选中图表，点击图标元素，把不需要的元素取消勾选：

>>免费升级到企业版，赠超大存储空间

然后双击图表这时候右侧出来一个工具栏，点击对象属性：

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然后在下拉列表中选择自定义动画：

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添加效果，选择擦除动画：

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然后修改动画的格式内容，我们可根据自己的需要进行选择：

本教程适用版本：WPS Office 2019 PC版  点此使用

If you own a concrete or plaster swimming pool, or are about to become the proud owner of a plaster-surfaced pool, we have some pointers to help you keep it looking like paradise. Plaster pool finishes are traditionally the most popular swimming pools dating all the way back to the very first backyard pools. Typically a mixture of cement and fine, crushed marble sand, otherwise known as marcite, it’s a durable resistant surface.

Perhaps best of all, they can be sculpted into almost any shape your budget can afford. Additionally, gunite pools are very sturdy and strong because of the steel framework.

How to Identify and Remove Stains in a Plaster Pool

Invisible metals dissolved in your pool water from sources like rain run-off, pool equipment, saltwater pool systems, or even your concrete pool deck surface. Bits of metal like screws or hair pins can make a nasty rust stain.

A great product for removing metal from your pool is Metal-Free by Natural Chemistry. It is one of the strongest products available for sequestering metals. It works especially well on well water, is not affected by pH or temperature, and is all natural. The Sapphire Stuff by Jack’s Magic is another fantastic sequestering agent. It not only removes metals, but also oils, soaps, cosmetics and other organic matter from your pool water.

For oily stains at the waterline, or a bathtub ring from winterization water levels, use an enzyme product like Pool Perfect to consume oils, fats and other greasy pollutants that enter the water.

Identifying Plaster Pool Stains

It’s important to know what kinds of metals are creating the stains in your pool. Here’s a pool stain chart as a guide for metal stain identification in pools:

Removing Plaster Pool Stains

Metals are certainly not the only cause of stains in a plaster-surfaced swimming pool. Leaves, berries, bugs, sun tan oil, or even your water-loving dog can all contribute to staining. These types of stains can be cleaned with good old fashion elbow grease using a combination of a pumice stone and pool shock. Pouring a bit of pool shock directly onto a stain works similar to bleach and is ideal for plaster surfaces, but a bit harsh for vinyl liners.

The Stain Eraser is another great stain removal product that does not require the use of chemicals and is great for smaller stains and stains in tough corners. It’s designed to be mildly abrasive so it’s tough but not destructive to the plaster.

For extreme staining or serious algae blooms, plaster pools can be cleaned with an acid wash with muriatic acid, or the safer to use Acid Magic. Acid washing removes a thin layer of plaster, exposing bright white and unstained plaster underneath. Having your pool acid washed will remove most surface stains.

Finally, keep your pool water balanced, with good pH, alkalinity and calcium hardness levels. A pool that is out of balance can stain more easily, and makes stain removal difficult as well.

For plaster pool stains, it’s best to always start with the brushing and shock before going in with a bunch of trial and error stain removers. With staining, patience is a virtue. If you have balanced the water, brushed and shocked, and you still find staining, then try one of our pool stain removal chemicals.

Other Stains

These can include pool stains from mineral scale like calcium and metals like copper, iron or manganese. Minerals can come out of solution in hard water, and metals can enter from fill water that is high in metals, or from copper pipes or a pool heater exchanger – when water balance is not correct.

Poor water balance can become corrosive or scaling, and both conditions can cause plaster pool stains by making it easy for minerals and metals to come out of solution.

Sequestering agents, commonly called stain and scale chemicals, can help keep minerals and metals in solution, locked up tightly at the molecular level, so they won’t precipitate, mix with other particles, and then attach to your pool surfaces.

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For eight winters NHBB HiTech has been burning wood pellets to heat its 230,000 sq. ft. facility. This sustained commitment to modern wood heating has earned HiTech an official commendation from the New Hampshire Wood Energy Council (NHWEC).

During the heating season, from November to April, HiTech burns approximately 60 to 70 tons of pellets in total, which has enabled the division to reduce its use of nonrenewable fossil fuel heating oil by 70,000 gallons, annually.

“By adopting wood pellets as a primary heating fuel, we’re able to reduce our dependence on fossil fuels,” said Patti Carrier, Environmental Manager in NHBB’s Office of Safety, Environment and Sustainability. “This outcome is consistent with our values, given that we seek to develop policies and practices designed to bring about long term economic, environmental and social viability.”

The heating system HiTech operates includes two dual-fuel boilers that burn both wood pellets and heating oil. The wood pellets are housed in a twenty-foot tall silo that sits behind the building. The pellets are fed into the boilers through a long, white conveyor tube, which maintains a steady flow to both furnaces during the coldest months of the year. The 4 to 5 tons of ash that is left over is recycled as an organic compost for topsoil.

According to their website, the New Hampshire Wood Energy Council (NHWEC) is a nonprofit partnership that provides professional guidance to support the growth of commercial and institutional wood heating. By working closely with individuals, organizations, businesses, industry associations, and government agencies, NHWEC promotes the sustainable use of NH’s renewable forests to help bring energy independence and economic prosperity to the State.

New Hampshire Ball Bearing
nhbb.com

Traditional Chinese Clothing Jin Dynasty Hanfu Women

Name: Chinese Traditional Hanfu Dress
Categaory: Chinese Ancient Clothes
Fabric: Chiffon,Satin jacquard fabric
Color: As picture
Size: S/M/L
Season: Spring/Summer/Autumn
Occasions:Cosplay/Party/School Festival/Outfit/Photographing Concert/Graduation Stage / Performance

Package Included:
One Long Shirt Outside
One Long Shirt Inside
One Belt

Size Information Unit cm (1cm=0.394inch, 1 inch=2.54cm) Long Shirt Outside Size Bust Sleeve Length Length Hem S 100 175 124 156 M 105 180 129 161 L 110 185 134 166 Long Shirt Inside Size Bust Sleeve Length Length Hem S 96 170 119 150 M 101 175 124 155 L 106 180 129 160 Warm Tips: The size is Asian size, please choose the size according to the size chart Item Measure by hand, it could be 2cm-3cm different. All the images we list are 100% real object photos. But different computer monitor display colors differently.

 

In today’s French national team press conference, Didier Deschamps was notably asked about the situation of former France starter Mathieu Debuchy.

Click Here: Argentina National Team soccer tracksuit

Deschamps had the following to say:

“Mathieu has not lost all of his qualities overnight. But he has played very little. He needs to face up to the competition at his club. I spoke to him in September. He is a player who is under contract at Arsenal. He is somebody who is rational and intelligent. You cannot pretend to be at 100% at international level when you play so little. Up to him to see what happens in December, January.”

Time to read: 8 min

CNC (Computer Numerical Control) machining is a modern manufacturing process that involves the use of computer software and machinery to create complex and precise parts and components. One of the most important factors that determine the quality and accuracy of CNC machining is the choice of material.

Selecting the right material for CNC machining can be a challenging task, especially for those who are new to the process. There are several factors to consider, including the material’s strength, durability, hardness, machinability, and cost.

In this guide, we provide an overview of the most commonly used materials for CNC machining, including their properties and applications. We will also discuss the advantages and disadvantages of each material, as well as the factors to consider when selecting the best material for your specific project. By the end of this guide, you’ll have a better understanding of the different materials available for CNC machining and be able to make an informed decision when choosing the best material for your project.

Table of Contents

Commonly Utilized CNC Machining Materials

Consider Material Properties

Consider Finishing Requirements

Consider Pricing, Availability, and Lead Time

Consider Statutory, Quality, and Regulatory Requirements

Consider Other Design Requirements

Consider How the Material Behaves During Machining

Sourcing Simplified

Commonly Utilized CNC Machining Materials

While your material selection is dependent on a multitude of factors, there are some tried & true material choices for CNC machining. These materials are utilized often because they provide a good combination of machinability, cost, availability, strength, and environmental resistance. Here are the most commonly chosen materials for CNC machining and the most prominent reasons they are chosen for CNC machining: 

• Aluminum: lightweight, good strength-to-weight ratio, easy to machine
• Steel: strong and durable, though certain grades can be difficult to machine
• Stainless steel: corrosion-resistant and strong, but more difficult to machine than regular steel
• Brass: good machinability, good electrical conductivity
• Copper: good electrical conductivity, but can be difficult to machine
• Plastics: easy to machine, available in a variety of types and colors
• Titanium: strong and lightweight, but difficult to machine

Pro-Tip: Click the links above for quick information about each material, including CNC machining processes, tolerances, design recommendations, relative cost, material properties, and more!

The first and most important thing to consider when choosing a material for CNC machining is its properties. Both metals and plastics have the following set of relevant material properties: 

1. Electrical: electrical conductivity, permittivity
2. Thermal: coefficient of thermal expansion, specific heat, thermal conductivity
3. Mechanical: strength, hardness, ductility, malleability, elasticity, toughness, brittleness, stiffness
4. Chemical: corrosion resistance, reactivity, flammability
5. Optical: reflectivity, transparency, refractive index
6. Acoustic: sound absorption/insulation, sound transmission
7. Other Physical Properties: density, appearance, melting point, boiling point

Pro-Tip: Our resource center has a wealth of knowledge and insights to help you discern the difference between the most commonly used material properties, click on the links above or check out our full list of articles. 

While that may appear to be an overwhelming list of properties to evaluate, it’s a good idea to sort the types of material properties based on priority for your specific application. For example, if you’re designing a heat exchanger, you will likely rank thermal properties pretty high and not need to consider optical or acoustic properties. 

There are entire textbooks written on material selection (check out our adaptation of a textbook method) and chances are you’ve picked up some tips based on your experience. The good thing is that materials are pretty consistent, so once you have experience using certain materials, you’ll be much faster at narrowing down a list of potential candidates. 

Here are some of the most important properties to consider when narrowing down your list of CNC material candidates, along with some of the materials that provide the best value for each: 

• Surface Hardness: If your project requires a specific surface hardness, such as for wear resistance or impact resistance, then you need to choose a material that can achieve that hardness through machining or other processes.
• Conductivity: If your project requires electrical or thermal conductivity, copper and aluminum have good electrical conductivity, while steel and titanium have good thermal conductivity.
• Chemical Resistance: If your project requires chemical resistance, then you must choose a material that can withstand those chemicals, like stainless steel and titanium.
• Environmental Factors: Some applications require materials that can withstand extreme temperatures, corrosion, or other environmental factors. Consider the environmental factors that your project will encounter and choose a material that can withstand those conditions, like stainless steel and titanium.
• Weldability: If your project requires welding, then you will need to choose a material that can be welded — aluminum and steel are more commonly used for applications requiring welding than others.
• Machinability: Some materials, such as aluminum and brass, are easier to machine than others, such as titanium and stainless steel. Consider the machinability of the material when making your selection.

Consider Finishing Requirements

Finishing refers to the form and function of the surface of a part and can be a result of surface finishing, coating, plating, or painting the CNC machined parts. Coatings may be applied via an electrolytic process, by surface modification via a chemical reaction, or by spraying the parts such as with powder coating. 

Surface finishing often means smoothing or roughening up a surface and can be accomplished with a variety of media, or processes such as grinding, honing, tumbling, polishing, blasting, lapping, and buffing. Plating is a typically electrochemical process whereby metals are deposited on the surface of a part to achieve a material property not inherent to the part itself, it can be electroless (electroless nickel) or done for aesthetic purposes (like jewelry). 

Finishing may be an afterthought in your design process, but that isn’t the best practice. You should carefully review any specifications surrounding the finish requirements for your part because there may be material compatibility issues if you don’t. So, follow these general guidelines: 

• Consider surface finish requirements. If surface finish is important for your project, then choose a material that can be machined to the required finish. Some materials, such as aluminum and plastics, can be machined to a very smooth finish. Others, such as cast iron, may require additional processes to achieve a smooth finish.
• Not all plating types are compatible with all base materials. For example, if your customer requires nickel plating, you don’t want to design your part from aluminum. However, stainless steel is a good choice for nickel plating, so use the specification for plating to help guide you to a compatible material. 

Pro-Tip: Surface preparation is key to ensuring the integrity and adhesion of coatings, plating, and paint. Research the best preparation methods and if you don’t know where to start, there are many industry specifications that can point you in the right direction. 

Consider Pricing, Availability, and Lead Time

• Raw Material Cost: Cost is always a factor when choosing a material. Some materials, such as high-end aerospace alloys, can be very expensive, while others, such as plastics, can be much more affordable. So, consider the cost of the material and whether it fits within your budget.
• Machining Cost: The cost of machining the material must also be considered. Some materials require more time and effort to machine than others, which impacts the overall machining cost.
• Availability: Availability is another important factor to consider when choosing a material. Some materials are difficult to source or require longer lead times, which can delay your project. Consider the availability of the material and whether it can be obtained within your required timeframe.
• Lead Time: Finally, the lead time required for your project can also impact your material selection. Some materials may have longer lead times than others, which can impact your overall project timeline.

Consider Statutory, Quality, and Regulatory Requirements

Ensuring that you meet statutory, quality, and regulatory requirements is often the job of a design engineer, and meeting those requirements starts with choosing the right materials. Here is a graphic to help simplify the hierarchy of competing requirements: 

Use these tips to simplify picking the best material for regulatory, statutory, customer, and quality requirements: 

• If your project requires specific certifications, such as aerospace or medical certifications, then you must choose a material that meets those requirements — so check the certification requirements before making a selection. Examples of regulatory requirements include RoHS, REACH, and Conflict Minerals Regulation. 

These requirements can be complex, so it’s important to thoroughly understand and research them before selecting a material — and check that your material type can be tested for the certification process that it must undergo to be certified. Not all materials are compatible with all testing procedures. 

• The sustainability of your materials should also be considered. Some materials, such as aluminum and steel, are easily recyclable, while others, such as plastics, are more difficult to recycle or not recyclable at all. Your sustainability requirements may include checking the carbon emissions for your material during procurement and/or raw material refining. 

Other Design Requirements to Consider

• Tolerances: The tolerances required for your project can also impact your material selection. Some materials may be more difficult to hold tight tolerances on than others, which can impact the overall quality of your finished parts.
• Size and Shape of Parts: The size and shape of your parts can also influence your material selection. Some materials may be better suited for machining large or complex parts, while others may be better suited for small or simple parts.
• Quantity of Parts: The number of parts needed for your project can also impact your material selection. Some materials may be more cost effective for larger quantities, while others are better suited for smaller quantities.
• Part Complexity: The complexity of your parts can also impact your material selection. Some materials are better suited for machining complex geometries, while others may be better suited for simpler parts.

Consider How the Material Behaves During Machining

It’s also advisable to look at how the material behaves during machining using the following guidelines:

• Machining Process: The type of machining process you plan to use can also impact your material selection because some materials are better suited for certain machining processes, such as milling or turning, than others.
• Tool Wear: The material you choose impacts the wear on your machining tools. Some materials, such as high-temperature alloys, can cause excessive tool wear and may require specialized tooling to machine.

Fictiv – Complex Parts at Ridiculous Speeds 

No matter how complex your designs, or the materials you need to bring them to life, Fictiv can produce the custom, CNC-machined tight tolerance parts you need. Our manufacturing experts can help you select the right material for your application, and our online platform simplifies custom part sourcing with intelligent, streamlined, automated workflows. 

Fictiv is your operating system for custom manufacturing that makes part procurement simpler, easier, and more efficient. We deliver high quality mechanical components, fast. 

Create an account and upload your part to see what our instant online CNC quote process, design for manufacturability feedback, and intelligent platform can do for you.

There is considerable interest in the development of reduced protein diets balanced with supplemental crystalline amino acids for broiler chickens due to economic, environmental and bird welfare advantages (Moss et al., 2018).

However, reduced protein diets may result in dietary amino acids being redistributed away from growth and production processes, toward intestinal cells involved in immune and inflammatory responses (Le Floc’h etal., 2004). In addition, an unbalanced supply of amino acids (AA) in the diet can be deleterious to the immune system (Li et al., 2007).

Thus, an ideal balance of AA is crucial for broiler chicken production in particular if birds are reared without antibiotics. All of the crystalline AA supplemented in commercial poultry production are in their natural form (L-form) except methionine (Met) (Esteve-Garcia and Khan, 2018). In poultry diets, Met is the first limiting amino acid and the dietary supplemental Met sources include L-Methionine (L-Met; 99% purity), its synthetic forms DL-methionine (DL-Met, 99% purity) and liquid DL-2-hytroxy-4-methylthio butanoic acid (DL-HMTBA, containing 88% of active substance).

All three sources of methionine are currently supplemented in poultry diets to meet birds total sulfur amino acids (TSAA) requirements.

Met Metabolism and Function

Met is an essential AA involved in multiple fundamental biological processes, including protein synthesis, transmethylation and the synthesis of homocysteine. Apart from protein synthesis, Met is the major donor of the methyl group to affect DNA and protein methylation in cells including creatine production (Wu, 2013).

High dietary arginine has been recently demonstrated to improve chicken gut health (Bao, 2019) and creatine concentration in chicken breast meat (Chamruspollert et al, 2002) but possible depressed chicken performance might be due to increased dietary Met requirement (Chamruspollert et al., 2002).

Homocysteine is a key substrates in three additional essential reactions: (1) the recycling of intracellular folic acids;(2) the catabolism of choline and betaine; and (3) the transsulfuration pathways to produce cysteine (Cys) (Finkelstein, 1998).Consequently, the minimal daily requirement for Met varies as a function of the availability of cysteine, choline or betaine, Vitamin B12 and folic acid but cannot be replaced by choline or betaine in producing immune responses.

Because a portion of dietary Met is normally converted to Cys, it suggests that dietary Cys can spare, reduce, or replace a portion of the requirement for Met by as much as 50%-80% in birds (Shoveller et al., 2005). However, The Met portion used for Cys biosynthesis is only 81% on a dietary concentration basis, indicating the magnitude of response to Met supplementation when Cys is also deficient is less than that when Met is singly deficient (Baker, 2009).

Cys is the precursor of glutathione (GSH) and hydrogen sulfide (H₂S) (a signalling molecule) in animal cells, positively correlated with glutathione concentrations in the liver, spleen and muscle, playing an important role in regulating cellular signalling pathways in response to immunological challenges (Li et al., 2007). Cys preferably participates in the synthesis of keratin in feathers comparing to nutrient deposition in the breast muscle (Bonato, 2011). Glutathione is essential for normal intestinal function and the deficiency of glutathione will increase the susceptibility to carcinogenesis, oxidative injury.

It is noteworthy that taurine is an end product of TSAA with various physiological roles including conjugation with bile acids, stabilization of the cellular plasma membrane and a major antioxidant to regulate the cellular redox state (Hagiware et al., 2014). However, in some circumstances, taurine cannot be sufficiently synthesized in the liver although plasma Met and Cys concentrations are high. Recently it was found that supplementation of branched chain amino acids (BCAA) may improve taurine biosynthesis in the liver. Thus, the higher dietary BCAA levels may help TSAA to fully play their functional roles.

Commercially available L-Met is produced by bacteria fermentation and can be directly used to synthesize protein, provide methyl group or degrade through pathways to produce Cys. For DL-Met, it contains 50% D-Met and 50% LMet. In the chicken body, its D-Met is oxidatively deaminated to the α-keto analogue of L-Met, 2-keto-4 methylthio butanoic acid (KMB) by D-amino acid oxidase. It is assumed to be 100% efficacy, but it has been traditionally accepted that DL-Met is 95% efficacy relative to L_met due to equal dietary contributions of the D-and L-isomers (Baker, 2006).

Then KMB is converted to L-Met by transaminase (Brachet and Puigserver, 1992). For DL-HMTBA, it contains 50% L-HMTBA and 50% D-HMTBA. Its D-HMTBA is oxidized to KMB by L-2-hydroxy acid oxidase and D-HMTBA is dehydronised to KMB by D-2-hydroxy acid dehydrogenase. Then KMB is converted to L-Met by transaminase (Dibner and Knight, 1984). The key enzyme, D-amino acid oxidase exists only in the liver or the kidney and D-Met is not utilized directly by the cells of the gastrointestinal tract (Shen et al., 2015).

Relative Bioavailability Values of Met From Different Sources.

The evaluation of relative bioavailability values (RBV) of Met sources in broiler chickens has remained controversy for more than 50 years differences in experimental designs, methionine requirements, supplemental methionine levels, dietary factors such as dietary lysine, arginine, cysteine and branched chain amino acids concentrations, dietary energy levels, response criteria, the age of broiler chickens and statistical models. Based on a dose-response trial, the slope-ratio and non-linear multiple regression models have been widely used in those RBV evaluation studies (Little et al., 1997).

For three sources of Met, in the slope-ratio multiple regression model, the following multilinear regression was applied:

Y = a + (b₁X₁ + b₂X₂ + b₃X₃)

In which y = growth performance ( body weight gain and FCR, a = intercept (growth performance achieved with the negative control), b1 =the slope of DL-Met line, b2 =the slope of L-Met line and b3 =the slope of liquid HMTBA line, X1 = intake of supplemental DL-Met (g/day/bird), X2 = intake of supplemental L-Met (g/day/bird) and X3 = intake of supplemental liquid HMTBA (g/day/bird). RBV of L-Met and liquid HMTBA to DL-Met were given by the ratio of slope coefficients, b2 : b1 and b3 : b1 , respectively.

For three sources of Met, in the non-linear multiple regression model with common plateau, the following non-linear regression was applied:

Y = a + b (1 ̶ e(c1X1 + c2X2 + c3X3))

In which y = growth performance ( body weight gain and FCR), a = intercept (growth performance achieved with the negative control), a + b = asymtote, c1 =the steepness coefficient for DL-Met , c2 =the steepness coefficient for L-Met and c3 =the steepness coeficient of liquid MHA line, X1 = intake of supplemental DL-Met (g/day/bird), X2 = intake of supplemental L-Met (g/day/bird) and X3 = intake of supplemental liquid HMTBA (g/day/bird). RBV of L-Met and liquid HMTBA to DL-Met were given by the ratio of steepness coefficients, c2 : c1 and c3 : c1 , respectively.

Based on the slope-ratio analysis, in broiler chickens (21 to 42 d ) exposed heat stress, the RBV of liquid HMTBA ranged from 67% (FCR) to 83% (weight gain) relative to DL-Met (Rostagno and Barbosa, 1995). Following the non-linear regression model, Lemme et al., (2002) reported 72% weight gain and 51% FCR (1 to 42 days) of liquid DL-HMTBA RBV compared to DL-Met.

However, based on predominantly not accessible or published data in non-peer-reviewed journals, Vázquez-Añón et al., (2006) argued that DL-Met and DL-HMTBA did not fit the same dose response profile, concluding that at lower or deficient dietary TSAA levels, DL-HMTBIA responses were lower than those of DL-Met, whereas at the commercial or above requiremental levels, DL-HMTBA outperformed those for DL-Met.

In these studies, the highest supplemental level of Met was 0.4%. On the basis of 1.13% and 1.02% digestible lysine in the starter (d1-d10) and grower (d 11-d 28) periods, respectively, an experiment was conducted to consist of a basal diet without Met addition, and 4 increasing Met doses for DL-HMBTA and DLMet resulting in TSAA/Lysine ratios from 0.62 to 0.73 in the starter phase and 0.59 to 0.82 in the grower phase. For the starter period, growth performance were not improved from 0.66 to 0.73 TSAA/Lysine ratio. For the grower period, performance parameters responded quadratically to either DL-Met or DL-HMTBA supplementation, showing better efficacy for HMTBA than DL-Met at higher TSAA levels (Agostini et al., 2016).

In this study, although separate plateau models were used as suggested by Kratzer and Little (2006), Hoehler (2006) insisted that it was correct to use either slope-ratio (linear response) or nonlinear models with common plateau depending on the data structure of the respective dose-response trial.

Based on a control diet containing digestible TSAA 0.56%, adding 0.095%, 0.190% and 0.285% of either L-Met or DL-Met resulted in TSAA/Lysine ratios from 0.44 to 0.67 (Shen et al., 2015). In this study, experimental data (1 to 21 d) were analysed by the slope-ratio multiple regression model. The RBV of L-Met ranged from 138% (weight gain) to 141% (FCR) relative to DL-Met. Surprisingly, adding 0.190% L-Met to the control diet (TSAA/Lysine ratio is 0.59) had reached the growth plateau and it was much lower than 0.78 suggested by Dozier and Mercier (2013). In this control diet, digestible Threonine/Lysine ,Isoleucine/Lysine and digestible Valine/Lysine is 0.63, 0.63 and 0.71, respectively. They were also much lower than Ross nutrient recommendation. Considering that maximal chicken body weight gain at 21 days of age was only 762 grams , other dietary factors might limit Met supplementation responses.

In a 37 days broiler chicken trial, on the basis of control diets containing digestible TSAA 0.54%, 0.52% and 0.50% in starter, grower and finisher periods, respectively, adding 0.05%, 0.10%, 0.15% and 0.20% of either L-Met or DL-Met resulted in TSAA/Lysine ratios from 0.44 to 0.61in starter period, 0.50 to 0.69 in grower period and 0.51 to 0.71 in finisher period, respectively (Esteve-Garcia and Khan, 2018). In this study, when experimental data in 37 days were analyzed by non-linear models with common plateau, the RBV of L-Met ranged from 112% (weight gain) to 130% (FCR) relative to DL-Met.

Interestingly, for broiler chickens fed purified diets, L-Met was more efficiently utilized than DL-Met and DL-Met in turn was superior to equimolar amounts of DL-HMTBA. However, in semi-purified diets continuing high proportion of natural L-Met provided by soy bean meal, this trend lost sensitivity (Smith, 1965). It is noticed that in this semi-purified, soybean meal provided 75% of dietary total methionine concentration, leaving a very small proportion of the methionine requirements to be provided by supplemental methionine sources.

Therefore, the higher dietary supplemental methionine levels or the control diet containing much lower natural L-Methionine are crucial for methionine RBV evaluation. Recently a dose-response trial was conducted in an Australian University to compare RBV of L-Met and DL-HMTBA relative to DL-Met. On the basis of the control diet containing 0.637% digestible TSAA, adding equimolar 0.138%, 0.276% and 0.414% either DL-Met, L-Met or DL-HMTBA led to digestible TSAA/Lysine ratio from 0.50 to 0.80.

Surprisingly, even adding equimolar 0.414% either DL-Met or DL-HMTBA did not reached the response plateaus. However, for L-Met, when TSAA:Lys ratio equalled to 74.9% and 74.2%, the optimal body weight gain and FCR were reached, respectively, confirming that L-Met has the highest bioavailability. It is noticed that in this trial, the highest supplemental Methionine concentration achieved 56% of the dietary total methionine requirement, resulting in the highest ileal digestibility of Met and other amino acids (Figure 1), indicating that supplementation of l-Methionine significantly reduced N excretion.

It is noteworthy that TSAA: Lys ratio of 74 to 75 is the current practice in broiler chicken production. The fact that supplementation of either DL-Met or DL-MHA did not reach the body weight gain response plateau, strongly suggests in practice, L-Met supplementation may at least improve FCR by two points.

Figure 1. The apparent ileal digestibility coefficients in response to diets supplemented with equimolar 0.414% Met from different sources.

 

Study compiled by Dr Yumin Bao, Redox Animal Nutritionist.

• BSL series semiautomatic L-seal cutting machine can convey the products automatically into shrink tunnel through conveying belt for shrink packaging after sealing & cutting. Equipped with shrink tunnel to reach higher working capacity.

• Features:

• Safety device that prevents the sealing knife from overheating and guarantees operator’s safety.

• Nano-fiber cutter holder and anti-sticking thermostable nichrome cutter that ensure good sealing without cracking or coking.

• Conveyor belt height is adjustable via hand wheel.

• Time relay that ensures accurate control of sealing & cutting times.

• Electro-magnetic hold-down provides more secure seal.

• Sliding roll holder, fully adjustable for different sized rolls of film (max. width:550mm).

• Return cylinder equipped to control sealing & cutting frame.

• Application:

• The machine is designed to pack electronic products, hardware, software, foodstuff, printing, pharmacy, floor, ceramics, etc. in small amount.

• It is suitable for all kinds of packaging materials, such as PVC, PE, etc.

According to Le Parisien, PSG are only willing to sanction two departures this January.

One is that of 20 year old attacker Hervin Ongenda, on a loan until the end of the season, and the other could by Ezequiel Lavezzi, whose agent is in contact with several clubs at the time of writing.

The report claims that PSG have no intention of letting either Salvatore Sirigu or Gregory van der Wiel leave however.

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