آزمایش رطوبت نسبی

۲۵ هزار تومان

ماده آزمون:  بنتونیت

صنعت: ریخته گری

نوع آزمون: فیزیکی

نوع نمونه: پودر جامد

مقدار لازم برای آزمایش: 5   گرم

کلیدواژه های آزمون:

مصالح | گچ | جرم | جرم، حجم و وزن | مقدار رطوبت | سنگ ها | خاک ها

اعلام نتایج: سه روز کاری

توضیحات

خدمات آماده سازی نمونه:

برای انجام این آزمایش نمونه بایستی به صورت پودر شده تحویل آزمایشگاه گردد. در صورتی که نمونه شما به صورت کلوخه سنگ است، علاوه بر سفارش آزمان، می توانید از خدمات پودرسازی شرکت آفاتوس نیز استفاده نمایید.

 

توضیحات تکمیلی:

 

محتوای آزمون:

این روش های آزمایش تعیین آزمایشگاهی مقدار جرمی آب (رطوبت) خاک، سنگ و مواد مشابه زمانی که کاهش وزن توسط خشک کردن ناشی از هدر رفت آب باشد پوشش می دهد. برای سادگی کلمه ماده به خاک، سنگ یا توده هایی که بکار می رود اطلاق می گردد.

برخی رشته ها مانند علوم خاک نیازمند تعیین حجمی آب بر اساس حجم هستند که این موارد فرای پوشش این روش آزمایش است.

 

استانداردها

جهت خرید و دستیابی به هر یک از استاندارد های زیر از طریق صفحه تماس با ما اقدام نمایید.

 

شماره اِی اِس تی اِم بین‌الملل (انجمن مواد و آزمون آمریکا): D2216 – 10 | روش های ازمون استاندارد برای تعیین آزمایشگاهی مقدار آب (رطوبت) خاک و سنگ به صورت جرمی

 

شماره سازمان ملی استاندارد ایران ISIRI INSO:  |

 

شماره سازمان بین‌المللی استاندارد سازی ایزو ISO:  |

 

سایر استانداردهای صنعتی: IS | Indian Standard 12446:2007 | بنتونیت مورد استفاده در ریخته گری

 

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English more details:

Keywords: Aggregates | Embankments | Gypsum | Mass | Mass, Volume And Weight | Moisture Content | Rocks | Soils

 

Standards:

American Society for Testing and Materials (ASTM) Standrard: D2216 – 10 | Standard Test Methods for Laboratory Determination of Water (Moisture) Content of Soil and Rock by Mass

 

Institute of Standard and Industrial Research of Iran (ISIRI) or Iranian National Standards Organization (INSO) Standard:   |

 

International Organization for Standardization (ISO):  |

 

Other standards: IS | Indian Standard 12446:2007 | Bentonite for use in foundries [MTD 14:Foundry]

 

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Scope:

1.1 These test methods cover the laboratory determination of the water (moisture) content by mass of soil, rock, and similar materials where the reduction in mass by drying is due to loss of water except as noted in 1.4, 1.5, and 1.7. For simplicity, the word “material” shall refer to soil, rock or aggregate whichever is most applicable.

1.2 Some disciplines, such as soil science, need to determine water content on the basis of volume. Such determinations are beyond the scope of this test method.

1.3 The water content of a material is defined in 3.2.1.

1.4 The term “solid material” as used in geotechnical engineering is typically assumed to mean naturally occurring mineral particles of soil and rock that are not readily soluble in water. Therefore, the water content of materials containing extraneous matter (such as cement etc.) may require special treatment or a qualified definition of water content. In addition, some organic materials may be decomposed by oven drying at the standard drying temperature for this method (110°C). Materials containing gypsum (calcium sulfate dihydrate) or other compounds having significant amounts of hydrated water may present a special problem as this material slowly dehydrates at the standard drying temperature (110°C) and at very low relative humidity, forming a compound (such as calcium sulfate hemihydrate) that is not normally present in natural materials except in some desert soils. In order to reduce the degree of dehydration of gypsum in those materials containing gypsum or to reduce decomposition in highly/fibrous organic soils, it may be desirable to dry the materials at 60°C or in a desiccator at room temperature. Thus, when a drying temperature is used which is different from the standard drying temperature as defined by this test method, the resulting water content may be different from the standard water content determined at the standard drying temperature of 110°C.

Note 1—Test Method D2974 provides an alternate procedure for determining water content of peat materials.

1.5 Materials containing water with substantial amounts of soluble solids (such as salt in the case of marine sediments) when tested by this method will give a mass of solids that includes the previously soluble dissolved solids. These materials require special treatment to remove or account for the presence of precipitated solids in the dry mass of the specimen, or a qualified definition of water content must be used. For example, see Test Method D4542 regarding information on marine sediments.

1.6 This test standard requires several hours for proper drying of the water content specimen. Test Methods D4643, D4944 and D4959 provide less time-consuming processes for determining water content. See Gilbert for details on the background of Test Method D4643.

1.7 Two test methods are provided in this standard. The methods differ in the significant digits reported and the size of the specimen (mass) required. The method to be used may be specified by the requesting authority; otherwise Method A shall be performed.

1.7.1 Method A—The water content by mass is recorded to the nearest 1 %. For cases of dispute, Method A is the referee method.

1.7.2 Method B—The water content by mass is recorded to the nearest 0.1 %.

1.8 This standard requires the drying of material in an oven. If the material being dried is contaminated with certain chemicals, health and safety hazards can exist. Therefore, this standard should not be used in determining the water content of contaminated soils unless adequate health and safety precautions are taken.

1.9 Units—The values stated in SI units shall be regarded as standard excluding the Alternative Sieve Sizes listed in Table 1. No other units of measurement are included in this test method.

1.10 Refer to Practice D6026 for guidance concerning the use of significant figures that shall determine whether Method, A or B is required. This is especially important if the water content will be used to calculate other relationships such as moist mass to dry mass or vice versa, wet unit weight to dry unit weight or vice versa, and total density to dry density or vice versa. For example, if four significant digits are required in any of the above calculations, then the water content must be recorded to the nearest 0.1 %. This occurs since 1 plus the water content (not in percent) will have four significant digits regardless of what the value of the water content is; that is, 1 plus 0.1/100 = 1.001, a value with four significant digits. While, if three significant digits are acceptable, then the water content can be recorded to the nearest 1 %.

1.11 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

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